CN112982913A

CN112982913A - Ceramic tile batch processing accurate typesetting and positioning construction process based on Internet of things

Info

Publication number: CN112982913A
Application number: CN202110276916.XA
Authority: CN
Inventors: 夏磊; 陈涛; 王文; 王振华
Original assignee: China Construction Eighth Engineering Division Decoration Engineering Co Ltd
Current assignee: China Construction Eighth Engineering Division Decoration Engineering Co Ltd
Priority date: 2021-03-15
Filing date: 2021-03-15
Publication date: 2021-06-18

Abstract

The invention discloses an Internet of things-based ceramic tile batch processing accurate typesetting and positioning construction process, which comprises the following steps of: actually measuring the civil construction structure size of ground brick paving areas of each floor according to the civil construction condition of each floor on site, and unifying the sizes of the brick paving areas of each floor into one size; typesetting according to the boundary size of the floor tile paving area, and manufacturing a processing list; the factory carries out processing and cutting according to the processing list and uploads the information of the cutting completion of the ceramic tile; the constructor verifies the processing size and the actual size of the drawing, and the ceramic tile can be laid after the verification is correct; after the ceramic tiles are paved, the constructor uploads the construction completion information, and the manager can inquire the brick paving completion condition at the background. The ceramic tile cutting machine is reasonable in design, can quickly and efficiently pave ceramic tiles, can ensure the paving quality of the ceramic tiles, and reduces the paving cost of the ceramic tiles and pollution generated in the ceramic tile cutting process.

Description

Ceramic tile batch processing accurate typesetting and positioning construction process based on Internet of things

Technical Field

The invention relates to the field of building construction, in particular to an accurate typesetting and positioning construction process for ceramic tile batch processing based on the Internet of things.

Background

At present, most of tile laying is manual on-site laying and cutting, so that the cutting and mounting speed is low, edges and corners are prone to collapse, a large amount of waste is prone to being caused, the tile laying quality cannot be guaranteed, and the problems that a large amount of noise pollution, dust pollution and leftover materials are changed into a large amount of solid waste due to on-site cutting can be caused.

The technology for ceramic tile typesetting, accurate positioning and progress tracking based on the Internet of things is to establish a full-chain integrated logistics and information flow management system from a processing plant to an installation site by utilizing an informatization means. A simple Internet of things technology is integrated through a mobile phone of one hand, and an application system which integrates the control of the whole process of processing, transportation and pavement is realized. The whole set of equipment for operation is few, the cost is low, the system is small and exquisite, simple and convenient, the dynamic information of the ceramic tiles can be quickly tracked and inquired, and the system is easy to popularize and apply among workers.

Disclosure of Invention

The invention aims to provide an Internet of things-based ceramic tile batch processing accurate typesetting and positioning construction process, which can quickly and efficiently pave ceramic tiles, can ensure the paving quality of the ceramic tiles, and reduces the paving cost of the ceramic tiles and pollution generated in the ceramic tile cutting process.

The invention is realized by the following steps:

a ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things comprises the following steps:

s100, construction preparation: before the construction of a wall surface base layer, actually measuring the size of a civil construction structure of a ground brick laying area of each floor according to the civil construction condition of each floor on site, and unifying the size of the brick laying area of each floor into one size by comparing and analyzing the measurement data of each floor;

s200, ceramic tile typesetting: according to the determined boundary size of the floor tile paving area, performing typesetting by using CAD (computer aided design), determining a tile segmentation mode and a tile processing size, after design and first square confirmation, numbering tiles with different sizes in the paving area, and making a processing list;

s300, cutting the ceramic tile: a factory carries out processing and cutting according to the processing list, rechecks the processing size of the ceramic tile, cuts the ceramic tile after the processing size of the ceramic tile is confirmed to be correct, and uploads the information of the cutting completion of the ceramic tile after the cutting work of the ceramic tile is completed;

s400, tile laying: after the ceramic tile to be cut is conveyed to a site, a constructor verifies the drawing processing size and the actual size of the ceramic tile, and after the verification is correct, the ceramic tile can be laid according to the typesetting;

s500, completion confirmation: after the ceramic tiles are paved, the constructor uploads the construction completion information, and the manager can inquire the brick paving completion condition at the background.

In step S100, when the on-site floor civil engineering contains the string edge, the main brick areas within the string edge are unified into one size, and when the on-site floor civil engineering does not contain the string edge, each wall surface finishing face line is released according to the predetermined ground brick laying size, and the construction is performed according to the above, and after the construction of the base keel is completed, the size between the keels of each floor is rechecked, and finally the tile laying boundary size is determined.

In step S200, before a processing sheet is manufactured, a dynamic tile laying position diagram is manufactured, and a corresponding two-dimensional code is generated for each tile, where the two-dimensional code includes laying position information and size information of the tile.

In step S300, after the tile is cut, the corresponding two-dimensional code is pasted to the tile and the cut information is input by scanning the code.

In step S400, before the tiles are laid, the appearance of the tiles is checked to remove tiles whose edges and corners are broken.

In step S400, the tile laying quality meets the acceptance standard for building decoration project quality GB 50210-2018.

In step S500, after the tile is paved, protective measures are taken for the tile surface during subsequent engineering operations.

(1) The ceramic tile paving system is reasonable in design, and based on the combination of the Internet of things and the two-dimensional code, information of each ceramic tile can be collected and the state of each ceramic tile can be fed back, so that the ceramic tiles can be quickly and efficiently paved, the processing progress and the installation progress of the ceramic tiles can be known in real time, and a user can conveniently know the home decoration progress in real time and perform other decoration processes in time;

(2) the ceramic tile on-site cutting and installing device is reasonable in design, the ceramic tile can be customized and cut according to the civil construction condition of a floor before the ceramic tile leaves a factory, the problems of low on-site cutting and installing speed, easiness in edge breakage, corner breakage and material waste of the ceramic tile are effectively solved, noise pollution and dust pollution solid waste pollution caused by on-site cutting of the ceramic tile can be effectively reduced, and meanwhile, the floor decoration effect is greatly improved by paving the customized and cut ceramic tile;

(3) the invention has reasonable design, can effectively and accurately control the size of the ceramic tile by customizing and typesetting, greatly improves the paving effect of the ceramic tile, and effectively avoids the problem of large error caused by manual field cutting of paving workers.

Drawings

FIG. 1 is a process flow diagram of the ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

Referring to the attached figure 1, a ceramic tile batch processing accurate typesetting and positioning construction process based on the internet of things comprises the following steps:

In step S100, when the on-site floor civil engineering contains the string edge, the main brick areas within the string edge are unified into one size, and when the on-site floor civil engineering does not contain the string edge, each wall surface finishing face line is released according to the predetermined ground brick laying size, and the construction is performed according to the above, and after the construction of the base keel is completed, the size between the keels of each floor is rechecked, and finally the tile laying boundary size is determined. In the present embodiment, when the string of tiles is to be laid, the laying position of the string of edges is reserved according to the size of the string of edges, the area within the string of edges is used as the laying area of the tiles, and the tiles are laid out according to the laying area within the string of edges. When the wall surface base layer construction is not carried out, all wall surfaces are discharged according to the preset ground brick laying size to finish the surface line, and after the base layer keel construction is finished, the size among all floor keels is rechecked, and finally the tile laying boundary size is determined.

In step S200, before a processing sheet is manufactured, a dynamic tile laying position diagram is manufactured, and a corresponding two-dimensional code is generated for each tile, where the two-dimensional code includes laying position information and size information of the tile. In this embodiment, ceramic tile and two-dimensional code one-to-one, the position information of mating formation and the size position of ceramic tile have been saved in the two-dimensional code before dispatching from the factory, and constructor can acquire the position of mating formation and the size dimension information of this piece of ceramic tile through scanning the two-dimensional code. In addition, the operator can also scan the tile to supplement tile information, including the tile's cutting status and paving status, etc.

In step S300, after the tile is cut, the corresponding two-dimensional code is pasted to the tile and the cut information is input by scanning the code. In this embodiment, the ceramic tile and the two-dimensional code one-to-one that pastes its surface can input the state information of this piece of ceramic tile after scanning the two-dimensional code, and here is the cutting state information of ceramic tile, and managers can long-rangely learn the cutting state of ceramic tile, is convenient for in time supply the ceramic tile product to the user.

In step S400, before the tiles are laid, the appearance of the tiles is checked to remove tiles whose edges and corners are broken. In the embodiment, before the ceramic tiles are paved, the ceramic tiles with the collided edges and the collision corners are removed, and the paving quality of the ceramic tiles is ensured. Meanwhile, the damaged ceramic tile can be inquired about information by scanning the two-dimensional code, and the damaged ceramic tile can be cut again conveniently.

In step S400, the tile laying quality meets the acceptance standard for building decoration project quality GB 50210-2018. In the embodiment, the ceramic tiles are paved according to the standard GB50210-2018 of the quality acceptance standard of architectural decoration and finishing engineering, so that the paving quality of the ceramic tiles is ensured.

In step S500, after the tile is paved, protective measures are taken for the tile surface during subsequent engineering operations. In the embodiment, when subsequent engineering is carried out, a protective surface layer can be paved on the surface of the ceramic tile, so that the surface of the ceramic tile is prevented from being polluted by decoration cement paste and the like.

Compared with the prior art, the invention at least has the following advantages:

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a ceramic tile batch processing accurate typesetting location construction technology based on thing networking, characterized by includes the following step:

2. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S100, when the on-site floor civil engineering contains the string edge, the main brick areas within the string edge are unified into one size, and when the on-site floor civil engineering does not contain the string edge, each wall surface finishing face line is released according to the predetermined ground brick laying size, and the construction is performed according to the above, and after the construction of the base keel is completed, the size between the keels of each floor is rechecked, and finally the tile laying boundary size is determined.

3. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S200, before a processing sheet is manufactured, a dynamic tile laying position diagram is manufactured, and a corresponding two-dimensional code is generated for each tile, where the two-dimensional code includes laying position information and size information of the tile.

4. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S300, after the tile is cut, the corresponding two-dimensional code is pasted to the tile and the cut information is input by scanning the code.

5. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S400, before the tiles are laid, the appearance of the tiles is checked to remove tiles whose edges and corners are broken.

6. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S400, the tile laying quality meets the acceptance standard for building decoration project quality GB 50210-2018.

7. The ceramic tile batch processing accurate typesetting and positioning construction process based on the Internet of things as claimed in claim 1, which is characterized in that: in step S500, after the tile is paved, protective measures are taken for the tile surface during subsequent engineering operations.