CN114004544A - Quality tracing method for cast-in-place pile construction - Google Patents

Abstract

The invention discloses a quality tracing method for cast-in-place pile construction, which relates to the technical field of engineering management and comprises the following steps: building a BIM model, and importing the BIM model into an intelligent construction site platform; recording the information of the whole process of the construction of the cast-in-place pile; recording the information of the whole process according to the pile number of the cast-in-place pile, and classifying and archiving the information on the intelligent construction site platform; the tracing method realizes the supervision of the quality of the whole process of the cast-in-place pile production, carries out information archiving and future checking according to the pile number of the cast-in-place pile, greatly shortens the quality tracing time and improves the management efficiency.

Description

Quality tracing method for cast-in-place pile construction

Technical Field

The invention belongs to the technical field of engineering management, and particularly relates to a quality tracing method for cast-in-place pile construction.

Background

The existing cast-in-place pile quality traceability data mainly comprises the contents of a raw material acceptance sheet, a raw material entrance detection report, a test detection report and the like through filing paper data, and the whole process information traceability cannot be realized; moreover, as more and more engineering data are accumulated, the tracing time is long, and the paper data has the possibility of error or manual modification, thereby influencing the management efficiency of the concrete quality.

Disclosure of Invention

The invention aims to provide a quality tracing method for cast-in-place pile construction aiming at the defects in the prior art, the tracing method realizes the supervision of the quality of the whole process of cast-in-place pile production, and the information is filed and checked according to the pile number of the cast-in-place pile, thereby greatly shortening the quality tracing time and improving the management efficiency.

In order to achieve the above object, the present invention provides a quality tracing method for cast-in-place pile construction, comprising:

building a BIM (building information modeling) model, and importing the BIM model into an intelligent construction site platform;

recording the information of the whole process of the construction of the cast-in-place pile;

and classifying and archiving the whole process information record on the intelligent construction site platform according to the pile number of the cast-in-place pile.

Optionally, the recording the information of the whole process of the cast-in-place pile construction includes:

recording the information of the concrete raw material;

recording the information of concrete mixing;

recording the information of concrete transportation;

and recording the construction information of the reinforcement cage.

Optionally, the information on the concrete raw material includes:

the concrete raw materials are conveyed to a mixing station for acceptance inspection;

sampling the concrete raw material and sending the concrete raw material to a construction site laboratory for detection;

information of the number of the silo from which the concrete raw material is discharged.

Optionally, the information of acceptance and the information of number are recorded in a one-to-one correspondence manner.

Optionally, the detected information is uploaded to the intelligent worksite platform by a test instrument of the worksite laboratory.

Optionally, the information on concrete mixing includes:

information of acceptance of each raw material before mixing;

and acquiring the information of the weight of each mixed raw material through a sensor on the proportioning bin.

Optionally, the information on concrete transportation includes:

scanning a two-dimensional code of the vehicle body and inputting information of the concrete tank truck;

information of a discharge port selected by the concrete tank truck;

recording the information of the running track of the concrete tank car through a first vehicle-mounted positioning system;

information of the concrete tank truck in the pouring process.

Optionally, the information about construction of the steel reinforcement cage includes:

manufacturing a mechanical file of a welding machine of the reinforcement cage;

scanning a two-dimensional code of a body of a reinforcement cage transport vehicle, and inputting information of the reinforcement cage transport vehicle and information of a reinforcement cage on the reinforcement cage transport vehicle;

recording the information of the running track of the reinforcement cage transport vehicle through a second vehicle-mounted positioning system;

and scanning a two-dimensional code of a crane body to input information of the crane and information of the reinforcement cage on the crane.

Optionally, the mechanical file of the welding machine and the information of the reinforcement cage manufactured by the welding machine are recorded in a one-to-one correspondence manner.

Optionally, after the recording of the information of the whole process of the construction of the cast-in-place pile, the photographing reporting and the supervision and audit are further included.

The invention provides a quality tracing method for cast-in-place pile construction, which has the beneficial effects that: this quality method of tracing to source, based on BIM technique and wisdom building site platform combine together, technical means such as on-the-spot technical management personnel utilize the two-dimensional code information of each haulage vehicle, sensor, carry out overall process information record to bored concrete pile construction quality, compare in traditional paper record material, can improve the authenticity of quality data of tracing to source, integrality and convenience, avoid traditional method to appear the mistake or think the modification phenomenon, and the quality information record is convenient for trace back at any time in the platform, the discovery problem, work efficiency and construction quality are improved.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Detailed Description

Preferred embodiments of the present invention will be described in more detail below. While the following describes preferred embodiments of the present invention, it should be understood that the present invention may be embodied in various forms and should not be limited by the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The invention provides a quality tracing method for cast-in-place pile construction, which comprises the following steps:

building a BIM model, and importing the BIM model into an intelligent construction site platform;

recording the information of the whole process of the construction of the cast-in-place pile;

classify and file the whole-process information record on the intelligent construction site platform according to the pile number of the cast-in-place pile.

Specifically, the source tracing method comprises the steps of firstly establishing a BIM model through design data, importing the established BIM model to an intelligent construction site platform, establishing a corresponding engineering project document, comparing and referring recorded information data with the BIM model, monitoring the construction quality of a cast-in-place pile in real time, recording information acquired in the whole process of cast-in-place pile construction into the engineering project document, and classifying and archiving the acquired information records in the document according to the pile number of the cast-in-place pile, so that the inquiry of later-stage archived information is facilitated, the time for quality source tracing is greatly shortened, and the management efficiency is improved; in addition, through filing the information of record on wisdom building site platform, improved authenticity, integrality and the convenience of quality traceability data, avoid appearing the phenomenon that the information is wrong or was revised.

Import wisdom building site platform with the BIM model, give parameter information such as serial number, coordinate to the bored concrete pile, the BIM model includes: raw and other materials management module, experimental detection module, quality are traceed back the module, based on the BIM model, can realize long-range looking over and the management to bored concrete pile progress in the work progress, improve work efficiency.

Optionally, the recording the information of the whole process of the construction of the cast-in-place pile comprises:

recording the information of the concrete raw material;

recording the information of concrete mixing;

recording the information of concrete transportation;

and recording the construction information of the reinforcement cage.

Specifically, in the whole process of cast-in-place pile construction, concrete feeding, mixing, transportation and steel reinforcement cage construction are important construction steps, and information obtained in the construction needs to be uploaded to an intelligent construction site platform, so that quality information records can be traced and problems can be found at any time.

Optionally, the information on the concrete raw material includes:

conveying the concrete raw materials to a mixing station for acceptance information;

sampling the concrete raw material and sending the concrete raw material to a construction site laboratory for detection;

information of the number of the silo from which the concrete raw material is discharged.

Specifically, the raw materials need to be checked and accepted after entering the field, the concrete raw materials are conveyed to a mixing station and also need to be checked and accepted by professional checking personnel, the qualification certificates such as delivery qualification certificates of the raw materials and the like are checked, the raw materials are sampled by test sampling personnel and sent to a site laboratory for test detection, then the raw materials are unloaded to respective bins or material tanks, and the information recording is carried out in the whole process from the entering of the concrete raw materials to the storage; the recording mode is that the acceptance personnel scan the two-dimensional code corresponding to the wall body of the storage bin or the can body of the charging bucket and then input information, and the input information comprises acceptance personnel information, qualification certificates such as delivery qualification certificates, raw material weight, sampling personnel information, sampling sample information, serial numbers and the like.

Optionally, the information of acceptance and the information of number are recorded in a one-to-one correspondence.

Specifically, all information of examining and detecting are classified and filed according to the serial numbers of the bins or the charging buckets, the information corresponds to one another, the post numbers of the filling piles correspond to the post numbers in the document conveniently in the later period, the quality tracing time is greatly shortened, and the management efficiency is improved.

Optionally, the detected information is uploaded to the intelligent worksite platform by a testing instrument of the worksite laboratory.

Specifically, the raw materials entering each batch need to be inspected according to the requirements of inspection batches, and inspection data are directly uploaded to the intelligent construction site platform through an inspection instrument installed in a laboratory, so that the possibility of manually modifying the data is avoided.

Optionally, the information for blending concrete comprises:

information of acceptance of each raw material before mixing;

and acquiring the information of the weight of each mixed raw material through a sensor on the proportioning bin.

Specifically, in the process of mixing concrete, a sensor is arranged at an outlet of a proportioning bin, the weight of raw materials in each proportioning bin is controlled and monitored by the sensor according to mixing data and mixing ratio requirements, actual data acquired by the sensor is transmitted to an intelligent construction site platform, the actual data corresponds to information checked and accepted when the raw materials enter a field,

optionally, the information on concrete transportation comprises:

scanning a two-dimensional code of the car body and inputting information of the concrete tank car;

information of a discharge port selected by the concrete tank truck;

recording the information of the running track of the concrete tank car through a first vehicle-mounted positioning system;

information of the concrete tank truck in the pouring process.

Specifically, in the concrete transportation process, a driver of the concrete tank truck scans a two-dimensional code of a truck body to input vehicle information, wherein the vehicle information comprises a license plate number, the driver, a contact telephone and a discharge port where the concrete tank truck stays; when the concrete tank truck runs, the running track of the truck is positioned through the first vehicle-mounted positioning system on the truck, so that the transportation track of the concrete tank truck is ensured to be within a reasonable range; when the concrete tank truck is used for pouring, a pouring site manager takes pictures to confirm the pouring time and pouring quality of the concrete, and the pouring process is determined to be error-free in operation.

Optionally, the information about construction of the steel reinforcement cage includes:

manufacturing a mechanical file of a welding machine of the reinforcement cage;

scanning a two-dimensional code of a body of the reinforcement cage transport vehicle, and inputting information of the reinforcement cage transport vehicle and information of a reinforcement cage on the reinforcement cage transport vehicle;

recording the running track information of the reinforcement cage transport vehicle through a second vehicle-mounted positioning system;

and scanning the two-dimensional code of the body of the crane to record information of the crane and information of a reinforcement cage on the crane.

Specifically, in the construction process of the steel reinforcement cage, the information of the welded mechanical file and the steel reinforcement cage transport vehicle and the information of the steel reinforcement cage are correspondingly recorded, and the steel reinforcement cage and the pile number of the cast-in-place pile are in a mutual relation, so that the mechanical file of the welding machine and the information of the steel reinforcement cage transport vehicle can be classified and filed, and the quality tracing time is greatly shortened; recording the traveling track of the reinforcement cage transport vehicle through the second vehicle-mounted positioning system, and ensuring the transportation timeliness of the reinforcement cage; after the steel reinforcement cage is transported to a construction site, a site crane hoists and transfers the steel reinforcement cage, a site manager scans the two-dimensional code of the crane body, and inputs crane manipulator, signal hand information, cast-in-place pile number and site hoisting photos.

Optionally, the mechanical file of the welding machine is recorded in one-to-one correspondence with information of the reinforcement cage manufactured by the welding machine.

The information of steel reinforcement cage construction is marked with the stake number of bored concrete pile and is categorised, and when the information of the steel reinforcement cage construction of being convenient for uploaded to wisdom worker's platform, the file of can classifying has shortened the quality time of tracing to the source, improves work efficiency.

Optionally, after recording the information of the whole process of the construction of the cast-in-place pile, photographing, reporting, monitoring and auditing are further included.

Specifically, after the construction of the cast-in-place pile is completed, the whole construction process is reported and tested on line, field management personnel report to supervision personnel through a process management program, the supervision personnel examine and approve and confirm, the whole cast-in-place pile construction process forms a closed loop after the supervision personnel confirm to be qualified, the process information of the cast-in-place pile construction is complete, and follow-up information is convenient to check and trace.

Examples

The invention provides a quality tracing method for cast-in-place pile construction, which comprises the following steps:

building a BIM model, and importing the BIM model into an intelligent construction site platform;

recording the information of the whole process of the construction of the cast-in-place pile;

classify and file the whole-process information record on the intelligent construction site platform according to the pile number of the cast-in-place pile.

In this embodiment, the recording of the information of the whole process of the construction of the cast-in-place pile includes:

recording the information of the concrete raw material;

recording the information of concrete mixing;

recording the information of concrete transportation;

and recording the construction information of the reinforcement cage.

In the present embodiment, the information on the concrete raw material includes:

conveying the concrete raw materials to a mixing station for acceptance information;

sampling the concrete raw material and sending the concrete raw material to a construction site laboratory for detection;

information of the number of the silo from which the concrete raw material is discharged.

In this embodiment, the information of the acceptance and the information of the number are recorded in a one-to-one correspondence.

In this embodiment, the detected information is uploaded to the intelligent worksite platform by the inspection instruments of the worksite lab.

In this embodiment, the information about concrete mixing includes:

information of acceptance of each raw material before mixing;

and acquiring the information of the weight of each mixed raw material through a sensor on the proportioning bin.

In this embodiment, the information on concrete transportation includes:

scanning a two-dimensional code of the car body and inputting information of the concrete tank car;

information of a discharge port selected by the concrete tank truck;

recording the information of the running track of the concrete tank car through a first vehicle-mounted positioning system;

information of the concrete tank truck in the pouring process.

In this embodiment, the information about the construction of the steel reinforcement cage includes:

manufacturing a mechanical file of a welding machine of the reinforcement cage;

scanning a two-dimensional code of a body of the reinforcement cage transport vehicle, and inputting information of the reinforcement cage transport vehicle and information of a reinforcement cage on the reinforcement cage transport vehicle;

recording the running track information of the reinforcement cage transport vehicle through a second vehicle-mounted positioning system;

and scanning the two-dimensional code of the body of the crane to record information of the crane and information of a reinforcement cage on the crane.

In this embodiment, the mechanical file of the welding machine is recorded in one-to-one correspondence with the information of the reinforcement cage manufactured by the welding machine.

In this embodiment, after recording the information of the whole process of the construction of the cast-in-place pile, the photographing reporting and the supervision and audit are also included.

In conclusion, the quality tracing method uploads the data records of the whole construction process of the cast-in-place pile to the intelligent construction site platform, and the data records are classified and filed according to the pile number of the cast-in-place pile, so that the quality tracing time is greatly shortened, and the management efficiency is improved.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.

Claims (10)

1. A quality tracing method for cast-in-place pile construction is characterized by comprising the following steps:

building a BIM (building information modeling) model, and importing the BIM model into an intelligent construction site platform;

recording the information of the whole process of the construction of the cast-in-place pile;

and classifying and archiving the whole process information record on the intelligent construction site platform according to the pile number of the cast-in-place pile.

2. The method for tracing the quality of the cast-in-place pile construction according to claim 1, wherein the recording the information of the whole process of the cast-in-place pile construction comprises:

recording the information of the concrete raw material;

recording the information of concrete mixing;

recording the information of concrete transportation;

and recording the construction information of the reinforcement cage.

3. The method for tracing the quality of cast-in-place pile construction according to claim 2, wherein the information on the concrete raw material includes:

the concrete raw materials are conveyed to a mixing station for acceptance inspection;

sampling the concrete raw material and sending the concrete raw material to a construction site laboratory for detection;

information of the number of the silo from which the concrete raw material is discharged.

4. The method for tracing quality of cast-in-place pile construction according to claim 3, wherein the information of acceptance and the information of number are recorded in a one-to-one correspondence.

5. The method of claim 3, wherein the detected information is uploaded to the intelligent site platform by a testing instrument of the site laboratory.

6. The quality tracing method for cast-in-place pile construction according to claim 2, wherein the information on concrete mixing comprises:

information of acceptance of each raw material before mixing;

and acquiring the information of the weight of each mixed raw material through a sensor on the proportioning bin.

7. The method for tracing quality of cast-in-place pile construction according to claim 2, wherein the information on concrete transportation includes:

scanning a two-dimensional code of the vehicle body and inputting information of the concrete tank truck;

information of a discharge port selected by the concrete tank truck;

recording the information of the running track of the concrete tank car through a first vehicle-mounted positioning system;

information of the concrete tank truck in the pouring process.

8. The method for tracing quality of cast-in-place pile construction according to claim 2, wherein the information on construction of the reinforcement cage comprises:

manufacturing a mechanical file of a welding machine of the reinforcement cage;

scanning a two-dimensional code of a body of a reinforcement cage transport vehicle, and inputting information of the reinforcement cage transport vehicle and information of a reinforcement cage on the reinforcement cage transport vehicle;

recording the information of the running track of the reinforcement cage transport vehicle through a second vehicle-mounted positioning system;

and scanning a two-dimensional code of a crane body to input information of the crane and information of the reinforcement cage on the crane.

9. The quality tracing method for cast-in-place pile construction according to claim 8, wherein the mechanical file of the welding machine is recorded in one-to-one correspondence with the information of the reinforcement cage manufactured by the welding machine.

10. The method for tracing the quality of the cast-in-place pile construction according to claim 1, wherein after the recording of the information of the whole process of the cast-in-place pile construction, the method further comprises photographing, reporting, supervising and auditing.