CN116662339A - Information management system and method for pile foundation - Google Patents

Abstract

The application relates to the field of building information management methods, in particular to an information management system and method for pile foundations, wherein the system comprises an import and export module, a server module and an intelligent management module; the method comprises the steps that management information of the pile foundation is imported to a server module through an import and export module for storage; inquiring management information through the intelligent management module, displaying multiple sub pages, acquiring acceptance data, and sending the acceptance data to the server module for automatic calculation; the intelligent management module counts the login type of the acquired identity information, and carries out intelligent skip display on the multi-sub pages of the plurality of plates according to the login type, the construction management information and the intelligent management method. According to the application, after multi-factor comprehensive judgment, the display device automatically jumps to a certain sub page, so that the content to be displayed can be rapidly and accurately displayed, thereby facilitating accurate verification, facilitating subsequent operation, improving the operation fluency and improving the working efficiency.

Description

Information management system and method for pile foundation

Technical Field

The application relates to the field of building information management methods, in particular to an information management system and method for pile foundations.

Background

The pile foundation is a deep foundation form which is formed by constructing pile holes on a foundation, then placing a reinforcement cage, then pouring concrete, and finally constructing a reinforced concrete bearing platform and a ground beam on the top of the pile to connect the pile into a whole and bear the load on the upper part of a building together. In the process of designing and constructing a pile foundation, a design unit usually designs various parameters necessary for construction, such as pile length, pile diameter, reinforcement cage structure, reinforcement cage length, filler square quantity and the like of the pile foundation according to the investigation data of a geological investigation unit, wherein parameters, such as pile length, pile diameter and the like, may be different from pile to pile. The construction unit inputs design parameters into the electronic form, the participating parties carry out field acceptance according to the electronic form and take photos by holding acceptance data, the photos are sent to terminals such as mobile phones and the like for sharing by multiple persons, statistics staff inputs data such as pile length and the like into the electronic form, an acceptance picture is downloaded and archived, and the field staff calculates the length of the reinforcement cage according to the pile length.

The construction projects of pile foundations are few, hundreds of piles are more than thousands of piles are adopted, and the types of piles are generally various. In the acceptance link, the data in the electronic form is more, so that the electronic form is inconvenient to view; in the statistics link, because the data quantity to be counted is large, single statistics is easy to make mistakes, and a construction party, a supervision party and a tracking audit party are usually checked after being counted respectively, so that the statistics link consumes a large amount of time for participating in each party, and the efficiency is low; in the construction link, the length of the reinforcement cage is calculated on site according to the acceptance data, so that the time of on-site workers is occupied, and the manual calculation is easy to make mistakes.

Disclosure of Invention

The application aims to provide an information management system for a pile foundation, which aims to solve the problems that the related information management of the existing pile foundation is easy to make mistakes and has low efficiency.

The information management system for the pile foundation comprises an import and export module and a server module, wherein the import and export module is used for importing and exporting construction management information of the pile foundation to the server module;

the intelligent management module is used for checking, checking and counting various pile foundations and automatically calculating a field value to be calculated according to the checking and accepting data;

the intelligent management module acquires user identity information and records the login type of a user, wherein the login type comprises a first login and a non-first login, and the intelligent management module intelligently jumps to a sub-page under a target plate to be operated by the user according to the login type and construction management information;

the sub-pages comprise pages of a plurality of types of piles in the pile foundation, each type of pile is provided with an independent page, and the sub-pages are equal in level and have no membership.

The beneficial effect of this scheme is:

and the acceptance information is automatically calculated according to the acceptance data recorded in the construction site, so that the step of manual calculation is omitted, and the efficiency and accuracy are improved. Meanwhile, the sub page under the target plate to be operated by the user is judged according to the login type and the construction management information, namely, the sub page which the user possibly wants to reach is judged, intelligent skip display of the sub page is carried out, intelligent display is carried out on information of a plurality of piles required to be checked and accepted by construction, the content required to be displayed can be clearly and accurately displayed, the operation fluency is improved, and the working efficiency is improved.

Further, the plate comprises statistics, checked and unverified, the user identity information comprises management identity and construction identity, when the identity information is management identity and the login type is first login, the intelligent management module jumps to the statistics plate, and when the user identity information is construction identity and the login type is first login, the intelligent management module jumps to a sub-page of the checked or unverified plate according to the construction management information.

The beneficial effects are that: when logging in for the first time, jump display of different label pages is carried out according to the identity information of acceptance, so that the operation complexity is reduced, the jump is more accurate, the operation speed is high, and the working efficiency is improved.

Further, the construction management information comprises construction time nodes and construction completion conditions of various pile foundations, and the intelligent management module jumps to sub pages of the pile foundations of the corresponding types of the plates according to the positions of the current time in the construction time nodes and the construction completion conditions.

The beneficial effects are that: when the sub-page of different acceptance purposes of the plate is jumped to, the position of the current time in the construction time node and the construction completion condition are adopted, so that the accuracy of the jump is improved.

Further, before jumping to the subpage of the pile foundation of the corresponding type of the plate, the intelligent management module firstly judges whether the current time is within the overlapping time of the construction time nodes of a plurality of construction processes, if not, jumping to the subpage corresponding to the construction node according to the corresponding time of the construction process, if yes, checking whether the construction process is finished, if yes, jumping to the subpage of the unfinished construction process which is started to be constructed first, and if not, jumping to the subpage of the construction process which is started to be constructed first.

The beneficial effects are that: and judging whether the construction time of the two construction processes has the same time period according to whether the current time is within the overlapping time of the construction time nodes of the construction processes or not, and performing different jumps according to whether the construction time is overlapped or not, so that the jump accuracy is ensured, and the management operation of the construction processes can be avoided.

Further, after the user logs in successfully, the intelligent management module counts the residence time of the user on each sub-page, and when the login type is not the first time login, the intelligent management module jumps according to the residence time of each sub-page counted by the last time login.

The beneficial effects are that: through carrying out the dwell time statistics to every sub-page of checking and accepting, jump according to dwell time, reduce after every user logs in, each sub-page of manual in a plate again jumps through the time of delaying of clicking the mode one by one, improves the operation intelligence, omits the step of manual clicking, saves time.

Further, when the jump is performed according to the residence time, the intelligent management module firstly performs time sequencing on the sub-pages under each plate according to the residence time, and presets the priority value of each plate, so that the priority value with the highest priority is set to be the smallest.

The beneficial effects are that: the residence time statistics is carried out on the sub-pages, and the plate priority value is preset in advance, so that the intention of a user can be accurately judged, and the sub-pages under a plurality of plates can be accurately jumped.

Further, the intelligent management module firstly carries out the sequencing of the residence time of each sub-page after the last login when carrying out the sub-page jump, judges whether the residence time of the sub-pages is parallel first, compares the plate priority value of the parallel first sub-page when the residence time of the sub-page is parallel first, jumps to the sub-page with the minimum plate priority value, jumps to one of the sub-pages with the parallel first in a random mode if the plate priority values of the sub-pages are the same, and jumps to the sub-page with the longest residence time when the residence time of the sub-pages is different.

The beneficial effects are that: sub-page skip is carried out by judging the parallel first residence time and matching with the plate with the priority value if necessary, so that the skip accuracy is improved, the time wasted when a user clicks the sub-page by himself/herself is reduced, and the operation efficiency is improved.

Further, after the sub-page is jumped according to the retention time, the intelligent management module takes the sub-page as a default retention page logged in at the time, detects a manual jump operation record of the sub-page in real time, and jumps back to the default retention page after a preset time length when the manual jump operation record is that the sub-page is jumped to other sub-pages for multiple times.

The beneficial effects are that: the default stay page is set through the longest stay time used once, and after a plurality of sub pages are manually checked in the current use process, the default stay page is jumped back, so that the check operation of the pile foundation is convenient, and the check of different sub pages is carried out.

Further, after the intelligent management module records the last sub-page in each plate after the user logs in, when the manual skip operation is detected to be recorded as a plurality of times of skip to other sub-pages, the intelligent management module detects the plate which is manually skip back and skips to the last sub-page which is located below the plate.

The beneficial effects are that: when the plate is switched back, the original sub page can be kept, and the operation smoothness is improved.

The information management method for the pile foundation is based on the system and comprises the following steps:

step 1, importing construction management information of a pile foundation to a server module for storage through an import and export module;

further comprises:

step 2, the login type of the user identity information obtained by the intelligent management module is used for carrying out intelligent skip display on the multi-sub pages of the plurality of plates according to the login type and the construction management information;

and step 3, inquiring management information through the intelligent management module, displaying multiple sub-pages, inputting relevant acceptance data, and sending the acceptance data to the server module for automatic calculation and display after inputting the acceptance data.

Drawings

FIG. 1 is a schematic block diagram of an information management system for pile foundations according to an embodiment of the present application;

FIG. 2 is a block diagram illustrating a first log-in jump in an information management method for pile foundations according to an embodiment of the present application;

FIG. 3 is a block flow diagram of a non-first log-in jump in an information management method for pile foundations according to an embodiment of the present application;

fig. 4 is a block flow diagram of a jump between slabs in an information management method for pile foundations according to an embodiment of the present application.

Detailed Description

Further details are provided below with reference to the specific embodiments.

Examples

An information management system for pile foundations, as shown in fig. 1: the construction management system comprises an import and export module and a server module, wherein the import and export module is used for importing and exporting construction management information of a pile foundation to the server module, the import and export module can be a PC host at the front end, the construction management information is related data designed in advance for the pile foundation, for example, the construction management information comprises parameters such as pile length design, pile diameter design, construction process, construction time node, construction completion condition and the like, and the server module can be a server host at the background.

The intelligent management module is used for inquiring management information, displaying a plurality of plates and a plurality of sub-pages of the plates, acquiring acceptance data and sending the acceptance data to the server module for automatic calculation of the acceptance information, wherein the automatic calculation data comprises: the construction site is required to pile about 5000 piles in the soil, parameters of 'pile diameter', 'ground elevation', 'minimum pile length' of 5000 piles can be determined before pile driving, the 'actual pile length', 'three-stroke penetration degree', 'filling square quantity' is required to be filled according to the on-site acceptance condition, and the 'reinforcement cage length' is required to be calculated according to the 'actual pile length' accepted on-site.

The intelligent management module acquires user identity information and counts login types of the user identity information, the user identity information comprises management identities and construction identities, the user identity information is identification information which is uniquely corresponding to the user when logging in the system, such as a work number, and the identity corresponding to the work number, the login types comprise first login and non-first login, the intelligent management module intelligently jumps to sub-pages below a target plate to be operated by the user according to the login types and the construction management information to display, each sub-page rate belongs to a corresponding plate, the sub-page comprises pages of a plurality of types of piles in a pile foundation, each type of pile is provided with an independent page, the levels of the sub-pages are equal and have no membership, the types of piles comprise carrier piles, rotary digging piles and artificial digging piles, and the specific intelligent jump is displayed as follows:

the plate comprises statistics, acceptance and non-acceptance, wherein the statistics plate has only one page, namely statistics sub-pages, the statistics plate is used for carrying out information statistics on piles of different types on each sub-page, the information statistics of the piles of different types is set according to actual requirements, such as statistics on the number of the accepted piles, acceptance results and the like, the sub-pages of the non-acceptance plate comprise three sub-pages of an acceptance carrier pile, an acceptance rotary digging pile and an acceptance manual digging pile, the sub-pages of the acceptance operation panel comprise three sub-pages of the acceptance carrier pile, the acceptance rotary digging pile and the acceptance manual digging pile, and when the identity information of a user is management identity and the login type is first login, the intelligent management module jumps to the statistics sub-pages for display.

When the user identity information is the construction identity and the login type is the first login, the intelligent management module jumps to the checked or unverified plate for display according to the construction management information.

The construction management information comprises construction time nodes and construction completion conditions of each construction process, the intelligent management module jumps to sub-pages of the plate according to the position of the current time in the construction time nodes and the construction completion conditions, specifically, the intelligent management module firstly judges whether the current time is positioned in the overlapping time of the construction time nodes of a plurality of construction processes, if not, jumps to the sub-pages corresponding to the construction nodes according to the corresponding time of the construction processes, if yes, then checks whether the construction processes are completed, if yes, jumps to the sub-pages of the uncompleted construction processes which begin construction first, and if not, jumps to the sub-pages of the construction processes which begin construction first.

For example, the carrier pile construction period is: 2023.3.1-2023.5.31, the construction time period of the rotary digging pile is as follows: 2023.3.15-2023.4.15, the construction time period of the manual hole digging pile is as follows: 2023.6.15-2023.8.15. And (5) when the person A in the construction role logs in for the first time at 2023.3.5, checking that the time node is the non-overlapping time, and automatically jumping to a corresponding page, namely a sub-page of the carrier pile of the non-checked plate.

And B, checking that the overlapping time is the overlapping time according to the time node when the personnel 2023.3.16 of the construction role logs in for the first time, checking whether the overlapping process is the carrier pile and the rotary pile, and jumping to the first starting process, namely the carrier pile page if the overlapping process is the carrier pile and the rotary pile.

When the user logs in successfully, the intelligent management module counts the residence time of each sub-page, the residence time can be counted based on the internal time of the terminal, and when the login type is not the first time, the intelligent management module jumps according to the residence time of each sub-page counted by the last time. When the jump is carried out according to the residence time, the intelligent management module sorts the sub-pages under each plate according to the residence time, presets the priority value of each plate, and sets the priority value with the highest priority to be the smallest, for example, the residence time after the previous login of the C user is shown in table 1.

TABLE 1 residence time Table after previous login

As can be seen from Table 1, the ranking is based on the "user's stay time in each sub-page", wherein the user is first in parallel in the "non-accepted rotary pile page" and the "accepted rotary pile page", then the priority value of the "board priority" and the "non-accepted" board is smaller, so that the user automatically jumps to the "non-accepted" board after logging in, and the user's stay time in the "rotary pile" sub-page in the "non-accepted" board is the longest and the ranking is the highest, so that the user jumps to the "non-accepted rotary pile page".

The intelligent management module firstly carries out sequencing on the residence time of each sub-page after logging in for the next time when carrying out sub-page jump, judges whether the residence time of the sub-pages is parallel first, compares the plate priority value of the parallel first sub-page when the residence time of the sub-page is parallel first, jumps to the sub-page with the minimum plate priority value, as in the table 1, sequences according to the residence time of the recorded user in each page, wherein the user is parallel first in the non-acceptance rotary pile digging page and the acceptance rotary pile digging page, compares the plate priority with the priority value of the non-acceptance plate, and jumps to the non-acceptance rotary pile digging page; if the plate priority values of the sub-pages are the same, jumping to one of the sub-pages with the first side by side in a random mode is adopted, and when the residence time of the sub-pages is different, jumping to the sub-page with the longest residence time.

When the sub-page is jumped according to the retention time, the intelligent management module takes the sub-page as a default retention page logged in at the time, and detects a manual jump operation record of the sub-page in real time, for example, when the sub-page is jumped to an unverified rotary pile sub-page according to the retention time, the rotary pile sub-page is the default retention page, when the manual jump operation record is that the sub-page is jumped to other sub-pages for multiple times, the intelligent management module jumps back to the default retention page after a preset time length, for example, when a user manually jumps to the statistical page and jumps back to the preset time length of the unverified carrier pile, the intelligent management module jumps back to the default retention page automatically.

In another embodiment, the intelligent management module records the last sub-page that stays in each plate after the user logs in successfully, and when detecting that the manual skip operation records to skip to other sub-pages for multiple times, the intelligent management module detects the plate that is manually skipped back and skips to the last stay sub-page below the plate, for example, suppose that the operation of the D user is: after the operation of the 'unqualified carrier pile page', jumping to the 'statistics page', checking and then to the 'accepted page', wherein the stay conditions of the pages are shown in the table 2:

TABLE 2 Page dwell time

As can be seen from table 2, when the user selects the "not accepted" board again, since the last user left the page in the "not accepted" board as the "not accepted carrier stub page", the user automatically jumps to the "not accepted carrier stub page".

After logging in, the user may need to switch among the blocks of statistics, acceptance, etc., for example, after accepting several piles, go to the statistics page to check the statistics result, or go to the inquiry page to inquire the detailed information of a certain pile, by recording the last stay pages of the user in the 'acceptance and acceptance' blocks, the user can keep the original sub-pages when switching back to a certain block, thus saving the time of self-switching. For example, when the user W checks two rotary piles from the "non-checked" plate, the user W switches to the "checked" plate, and switches back to the "non-checked" plate after inquiring the detailed information of a certain rotary pile, and the operation can be continued on the rotary pile sub-page of the "non-checked" plate.

When the login type is the first login, the jump is carried out according to the position of the current time in the construction time node.

The information management method for the pile foundation is based on the information management system for the pile foundation, and comprises the following steps of:

and step 1, importing the construction management information of the pile foundation to a server module for storage through an import and export module.

And 2, counting the login type of the acquired user identity information by the intelligent management module, and performing intelligent skip display on the multi-sub pages of the plurality of plates according to the login type and the construction management information.

And step 3, inquiring management information through the intelligent management module, displaying multiple sub-pages, and after inputting relevant acceptance data, sending the acceptance data to the server module for automatic calculation and display.

In the step 2, the login types comprise first login and non-first login, the plate comprises statistics, checked and unchecked, the sub-page surface of the unchecked plate comprises an unchecked carrier pile label page, an unchecked rotary digging pile label page and an unchecked manual digging pile label page, and the sub-page surface of the checked operation panel comprises a checked carrier pile label page, a checked rotary digging pile label page and a checked manual digging pile label page.

As shown in fig. 2, when the user identity information is management identity and the login type is first login, the intelligent management module jumps to a statistical plate for display;

when the user identity information is the construction identity and the login type is the first login, the intelligent management module jumps to the checked or unchecked plate for display according to the construction management information, and jumps to the sub page of the plate according to the position of the current time in the construction time node and the construction completion condition. Specifically, the intelligent management module firstly judges whether the current time is within the overlapping time of the construction time nodes of a plurality of construction processes, if not, the current time jumps to the sub-page corresponding to the plate according to the sequence of the construction processes, if yes, then checks whether the construction processes are finished, if yes, jumps to the unfinished construction process sub-page which starts the construction first, and if not, jumps to the sub-page which starts the construction first.

As shown in fig. 3, when the user logs in successfully, the intelligent management module counts the residence time of each sub-page, and the statistics of the residence time is performed based on the internal time of the system.

Because the user can also click other sub-pages to view or operate manually after the intelligent skip, the intelligent management module skips to the sub-pages according to the residence time, time sequences the sub-pages under each plate according to the residence time, presets the priority value of each plate, and sets the priority value with the highest priority to be the minimum.

When the sub-page jumps, firstly sequencing the residence time of each sub-page after the last login by the intelligent management module, judging whether the residence time of the sub-pages is parallel to the first one, and when the residence time of the sub-pages is parallel to the first one, comparing the plate priority value of the parallel first sub-page, and jumping to the sub-page with the minimum plate priority value by the intelligent management module; if the plate priority values of the sub-pages are the same, jumping to one of the sub-pages with the first side by side in a random mode is adopted, and when the residence time of the sub-pages is different, jumping to the sub-page with the longest residence time.

When the sub page is jumped according to the retention time, the sub page is taken as a default retention page logged in at the time through the intelligent management module, the manual jump operation record of the sub page is detected in real time, and when the manual jump operation record is that the sub page is jumped to other sub pages for multiple times, the intelligent management module jumps back to the default retention page after a preset time length.

As shown in fig. 4, after logging in by the user through the intelligent management module, recording the last sub-page in each plate, when detecting that the manual skip operation is recorded as multiple times of skip to other sub-pages, detecting the plate which is manually skip back through the intelligent management module, and skip to the last stop sub-page below the plate, when logging in for the first time, if no last stop sub-page is recorded, performing skip according to the time node mode.

According to the embodiment, the acceptance information is automatically calculated according to the acceptance data recorded in the construction site, so that the step of manual calculation is omitted, and the efficiency and accuracy are improved. Meanwhile, the sub page which the user possibly wants to reach is judged according to the login type and the construction management information, and intelligent skip display of the sub page is carried out, so that the multi-content to be displayed can be clearly and accurately displayed. According to the embodiment, according to the login type, the construction management information, the time node, the page residence time and the like, after multi-factor comprehensive judgment, the user automatically jumps to a certain sub page, and the sub page is the page which the user wants to reach in a high probability, but the user needs to click for many times to reach, so that the intelligent jump improves the operation fluency and the working efficiency.

According to the embodiment, informatization management is achieved through the cooperative work of the mobile phone APP, the server, the computer browser and the like, the time of manual statistics is saved by automatically counting and exporting data by the background of the server, and the server automatically calculates and prompts to reduce the workload of on-site workers. However, because the attention points of different types of users are different, the manager usually pays most attention to the statistical result, the constructor needs to use a certain sub-page in the acceptance plate to accept, the manager and the constructor need to use a query function to query, and the user can select the corresponding sub-page according to the own needs, so that the time is wasted, and the working efficiency is low. According to the application, through multi-factor comprehensive judgment, the user can intelligently jump to the page which the user possibly wants to reach, the time for selecting the sub-pages layer by the user is reduced, and the working efficiency of site pile foundation construction management is improved.

The foregoing is merely exemplary embodiments of the present application, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present application, and these should also be considered as the scope of the present application, which does not affect the effect of the implementation of the present application and the utility of the patent. The protection scope of the present application is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (10)

1. The information management system for the pile foundation comprises an import and export module and a server module, wherein the import and export module is used for importing and exporting construction management information of the pile foundation to the server module; the method is characterized in that:

the intelligent management module is used for checking, checking and counting various pile foundations and automatically calculating a field value to be calculated according to the checking and accepting data;

the intelligent management module acquires user identity information and records the login type of a user, wherein the login type comprises a first login and a non-first login, and the intelligent management module intelligently jumps to a sub-page under a target plate to be operated by the user according to the login type and construction management information;

the sub-pages comprise pages of a plurality of types of piles in the pile foundation, each type of pile is provided with an independent page, and the sub-pages are equal in level and have no membership.

2. The information management system for pile foundations according to claim 1, wherein: the plate comprises statistics, checked and unverified, the user identity information comprises management identity and construction identity, when the identity information is management identity and the login type is first login, the intelligent management module jumps to the statistics plate, and when the user identity information is construction identity and the login type is first login, the intelligent management module jumps to a sub page of the checked or unverified plate according to the construction management information.

3. The information management system for pile foundations according to claim 2, wherein: the construction management information comprises construction time nodes and construction completion conditions of various pile foundations, and the intelligent management module jumps to sub pages of the pile foundations of the corresponding types of the plates according to the positions of the current time in the construction time nodes and the construction completion conditions.

4. An information management system for pile foundations according to claim 3, wherein: before jumping to the subpage of the corresponding type pile foundation of the plate, the intelligent management module firstly judges whether the current time is positioned in the overlapping time of the construction time nodes of a plurality of construction processes, if not, the intelligent management module jumps to the subpage corresponding to the construction nodes according to the corresponding time of the construction processes, if so, the intelligent management module checks whether the construction processes are finished, if so, the intelligent management module jumps to the subpage of the unfinished construction process which starts the construction firstly, and if not, the intelligent management module jumps to the subpage of the construction process which starts the construction firstly.

5. The information management system for pile foundations according to claim 4, wherein: and after the user logs in successfully, the intelligent management module counts the residence time of the user on each sub-page, and when the login type is non-first login, the intelligent management module jumps according to the residence time of each sub-page counted by the last login.

6. The information management system for pile foundations according to claim 5, wherein: when the jump is carried out according to the residence time, the intelligent management module firstly carries out time sequencing on the sub pages under each plate according to the residence time, and presets the priority value of each plate, and sets the priority value with the highest priority to be the smallest.

7. The information management system for pile foundations according to claim 6, wherein: the intelligent management module firstly carries out sequencing on the residence time of each sub-page after the last login when carrying out sub-page jump, judges whether the residence time of the sub-pages is parallel to the first, compares the plate priority value of the parallel first sub-page when the residence time of the sub-page is parallel to the first, jumps to the sub-page with the minimum plate priority value, jumps to one of the sub-pages with the parallel first in a random mode if the plate priority values of the sub-pages are the same, and jumps to the sub-page with the longest residence time when the residence time of the sub-pages is different.

8. The information management system for pile foundations according to claim 7, wherein: when the sub-page is jumped according to the retention time, the intelligent management module takes the sub-page as a default retention page logged in at the time, detects the manual jump operation record of the sub-page in real time, and when the manual jump operation record is that the sub-page is jumped to other sub-pages for multiple times, the intelligent management module jumps back to the default retention page after a preset time length.

9. The information management system for pile foundations according to claim 8, wherein: after the intelligent management module records the last sub-page in each plate after the user logs in, when the manual skip operation is detected to be recorded as a plurality of times of skip to other sub-pages, the intelligent management module detects the plate which is manually skip back and skips to the last sub-page below the plate.

10. Information management method for pile foundations, based on an information management system for pile foundations according to any of claims 1-9, comprising the steps of:

step 1, importing construction management information of a pile foundation to a server module for storage through an import and export module;

characterized by further comprising:

step 2, the intelligent management module counts the login type of the acquired user identity information, and carries out intelligent skip display on the multi-sub pages of the plurality of plates according to the login type and the construction management information;

and step 3, inquiring management information through the intelligent management module, displaying multiple sub-pages, inputting related acceptance data, and then acquiring the acceptance data and sending the acceptance data to the server module for automatic calculation.