CN113962451A - Method and system for judging optimization scheme of architectural reconnaissance design - Google Patents

Abstract

The application relates to a method and a system for judging an optimization scheme of architectural reconnaissance design, wherein the method comprises the following steps: the handheld terminal acquires actual position information and identification information preset in an electronic tag arranged on a sample container; the server receives actual position information sent by the handheld terminal and matches the actual position information with one or more pieces of preset exploration position information; and the server receives the identification information sent by the handheld terminal and associates the received identification information with the exploration position information successfully matched. In the sampling process, the serial number does not need to be pasted and removed outside the sample container, and the use of the sample container is convenient.

Description

Method and system for judging optimization scheme of architectural reconnaissance design

Technical Field

The application relates to the field of building construction, in particular to a method and a system for judging an optimization scheme of building reconnaissance design.

Background

Before building construction, geological exploration must be carried out on a construction area (foundation).

In the preliminary investigation stage, engineering geology and hydrogeology data are collected according to geotechnical engineering conditions, engineering geology investigation is carried out, and supplementary investigation and indoor test can be carried out if necessary.

In conducting laboratory experiments, it is necessary to drill in the field and bring back a physical sample. Generally, in a site survey, a plurality of exploration points are set on the site and numbered one by one; meanwhile, a plurality of exploration points are drilled, samples taken out of each exploration point are placed in independent sample containers, and corresponding numbers are attached to the outside of the sample containers, such as: the sample container numbered 01 is placed with the sample taken from the exploration point numbered 01.

In view of the above-mentioned related technologies, the inventor believes that the sample container often needs to be recycled, and then the serial number needs to be pasted each time of use, and after the indoor test is completed, the serial number pasted outside the sample container needs to be removed for the convenience of next use, which causes inconvenience.

Disclosure of Invention

In order to facilitate the use of the sample container, the application provides a method and a system for judging an optimization scheme of architectural exploration design.

In a first aspect, the present application provides a method for determining an optimization scheme of a building survey design, which adopts the following technical scheme:

a method for judging an optimization scheme of architectural reconnaissance design comprises the following steps:

the handheld terminal acquires actual position information and identification information preset in an electronic tag arranged on a sample container;

the server receives actual position information sent by the handheld terminal and matches the actual position information with one or more pieces of preset exploration position information;

and the server receives the identification information sent by the handheld terminal and associates the received identification information with the exploration position information successfully matched.

By adopting the technical scheme, after the exploration point is drilled and sampled, before the sample is placed in the sample container, the actual position information and the identification information corresponding to the sample container are obtained by using the handheld terminal and are sent to the server, and the server associates the identification information with the exploration position information successfully matched, so that the association between the sample container and the exploration point is realized; in the sampling process, the serial number does not need to be pasted and removed outside the sample container, so that the use of the sample container is convenient.

Preferably, the method further comprises the following steps:

a fixed terminal arranged in a laboratory acquires identification information preset in an electronic tag arranged on a sample container;

and the server receives the identification information sent by the fixed terminal and cancels the association between the identification information and the exploration position information.

By adopting the technical scheme, after the sample container is transported to a laboratory and a sample is tested, the association between the sample container and an exploration point is cancelled in time, so that the sample container can be recycled.

Preferably, the method further comprises the following steps:

a fixed terminal arranged in a laboratory acquires identification information and a test result preset in an electronic tag arranged on a sample container;

the fixed terminal sends the identification information and the test result to the server;

the server correlates the test results with the survey location information associated with the identification information and generates a geological model.

By adopting the technical scheme, along with the progress of the test, the test result is successively sent to the server, and the server automatically generates and perfects the geological model.

Preferably, the method further comprises the following steps:

the server calculates whether the target building structure design meets the standard of building design based on the geological model.

By adopting the technical scheme, whether the target building structural design meets the standard or not is automatically judged, and whether the target building structural design needs to be optimized or not is further judged.

Preferably, the step of matching the actual position information obtained by the handheld terminal and the identification information preset in the electronic tag arranged on the sample container with the actual position information sent by the server received by the handheld terminal and the preset exploration position information or exploration position information further comprises the following steps:

the handheld terminal sends the identification information to the server;

under the condition that the identification information received by the server has exploration position information associated with the identification information, the server sends an alarm instruction to the handheld terminal;

the handheld terminal responds to the warning instruction to send out warning.

By adopting the technical scheme, in the one-time on-site investigation process, a plurality of samples are prevented from being put into one sample container, so that the accuracy of the investigation result is ensured.

Preferably, the step of matching the actual position information obtained by the handheld terminal and the identification information preset in the electronic tag arranged on the sample container with the actual position information sent by the server received by the handheld terminal and the preset exploration position information or exploration position information further comprises the following steps:

the handheld terminal sends the identification information to the server;

under the condition that the identification information received by the server does not have exploration position information associated with the identification information, the server sends a sampling instruction to the handheld terminal;

the handheld terminal responds to the sampling instruction to send the actual position information to the server.

By adopting the technical scheme, whether the identification information has the associated exploration position information or not is judged firstly, so that the association of a sample container and a plurality of exploration points is avoided, the one-to-one correspondence between the sample container and the exploration points is realized, and the accuracy of an exploration result is ensured.

In a second aspect, the present application provides a system for determining an optimization scheme of a building survey design, which adopts the following technical scheme:

a system for judging an optimization scheme of architectural reconnaissance design comprises an electronic tag, a handheld terminal and a server;

the electronic tag is connected to the sample container, and identification information is preset in the electronic tag;

the handheld terminal is used for acquiring actual position information and identification information preset in an electronic tag arranged on the sample container;

one or more pieces of exploration position information are preset in the server; the server is used for receiving the actual position information sent by the handheld terminal and matching the actual position information with one or more pieces of preset exploration position information; and the server is used for receiving the identification information sent by the handheld terminal and correlating the received identification information with the exploration position information successfully matched.

Through adopting above-mentioned technical scheme, utilize the serial number that electronic tags replaced pasting to the sample container to make things convenient for the use of sample container.

Preferably, the device further comprises a fixed terminal arranged in a laboratory; the fixed terminal is used for acquiring preset identification information and test results in the electronic tag arranged on the sample container, and sending the identification information and the test results to the server.

By adopting the technical scheme, the sample container is transported to a laboratory and used for sending the test result to the server in time after the sample is tested, so that the test result and the exploration point are obtained.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the sampling process, the sample container does not need to be pasted and the serial number is not removed, so that the use of the sample container is convenient;

2. whether the identification information has exploration position information associated with the identification information is judged to avoid associating one sample container with a plurality of exploration points, so that the sample container and the exploration points are in one-to-one correspondence, and the accuracy of an exploration result is ensured;

3. and (3) with the progress of the test, the test result is sent to the server successively, the server automatically generates and perfects the geological model, automatically judges whether the target building structure design meets the standard of the specification, and outputs the result for the reference of designers.

Drawings

FIG. 1 is a block diagram of a system for building survey design optimization scenario determination.

Fig. 2 is a flow chart of retrieving a sample from the field.

Fig. 3 is a flow chart after the test is completed on the sample.

Description of reference numerals: 1. an electronic tag; 2. a handheld terminal; 21. a processing module; 22. a positioning module; 23. a reading module; 24. a communication module; 25. an interaction module; 3. a server; 4. fixing the terminal; 41. a local computer; 42. and a scanning module.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1, the embodiment of the present application discloses a system for judging an optimization scheme of architectural exploration design, which includes an electronic tag 1, a handheld terminal 2, a server 3 and a fixed terminal 4.

The electronic tag 1 is connected to a sample container, which may be a bottle, a box, or the like. Meanwhile, the electronic tag 1 is preset with identification information, and the identification information can be a combination of letters and numbers.

The handheld terminal 2 includes a processing module 21, a positioning module 22, a reading module 23, a communication module 24 and an interaction module 25.

The processing module 21 is used for data processing. The positioning module 22 may employ a beidou positioning chip or a GPS positioning chip for acquiring actual position information. Wherein, the actual information can be represented by longitude and latitude. The reading module 23 is configured to obtain identification information preset in the electronic tag 1. In one embodiment, the reading module 23 may obtain the identification information preset in the electronic tag 1 through RFID. In other embodiments, the reading module 23 may also obtain the identification information by scanning a barcode or a two-dimensional code on the electronic tag 1. The communication module 24 may employ a mobile data chip to communicate with the server 3. The interaction module 25 may employ a touch screen for displaying and responding to user operations.

The fixed terminal 4 is disposed in a laboratory, and the fixed terminal 4 includes a local computer 41 and a scanning module 42.

The local computer 41 is connected to the laboratory test equipment for obtaining test results; and the local computer 41 is used for storage and processing of data. The scanning module 42 is configured to obtain identification information preset in the electronic tag 1. The scanning module 42 may employ an RFID scanning gun or a code scanning gun.

The embodiment of the application also discloses a method for judging the optimization scheme of the architectural reconnaissance design, which comprises the following steps:

referring to fig. 2, S11, the handy terminal 2 acquires actual position information and identification information preset in the electronic tag 1 provided on the sample container.

Specifically, after the drilling equipment performs drilling sampling at an exploration position, the handheld terminal 2 and the sample container are carried by personnel and moved to a position close to the exploration position, at this time, the positioning module 22 in the handheld terminal 2 acquires actual position information and sends the actual position information to the processing module 21, and the reading module 23 acquires identification information preset in the electronic tag 1 arranged on the sample container and sends the identification information to the processing module 21.

S12, the handheld terminal 2 sends the identification information to the server 3.

Specifically, the reading module 23 obtains the identification information and sends the identification information to the processing module 21, and the processing module 21 performs data processing and then sends the data to the server 3 through the communication module 24.

S21, the server 3 receives the identification information and judges whether the exploration position information associated with the identification information exists; if yes, go to step S22; if not, go to step S23.

S22, the server 3 sends an alert command to the handheld terminal 2.

S13, the hand-held terminal 2 responds to the alarm command to send out an alarm, and returns to the step S11.

Specifically, the communication module 24 sends the received data from the server 3 to the processing module 21, and the processing module 21 performs data processing and then sends the processed data to the interaction module 25 for displaying, so as to remind the person to suspend sampling and replace the sample container. Meanwhile, the handheld terminal 2 acquires the identification information preset in the electronic tag 1 arranged on the replaced sample container again.

S23, the server 3 sends a sampling command to the handheld terminal 2.

S14, the handheld terminal 2 responds to the sampling instruction to send the actual location information to the server 3.

Specifically, the communication module 24 sends the received data from the server 3 to the processing module 21, and the processing module 21 performs data processing and then sends the processed data to the interaction module 25 for displaying so as to remind personnel to perform sampling operation and place the sample into the sample container. Meanwhile, the processing module 21 responds to the sampling instruction to send the actual position information to the server 3 through the communication module 24.

S24, the server 3 receives the actual location information and matches it with one or more predetermined survey location information.

Specifically, the survey location information is entered into service by personnel through a keyboard or other device based on the target architectural design and survey criteria. The exploration position information is expressed by longitude and latitude, and when the actual position information is matched with one or more pieces of preset exploration position information, if the actual position information falls into a preset area (such as 0.5 meter square and circle square) with the exploration position information as the center, the actual position information is successfully matched with the exploration position information.

S25, the server 3 correlates the received identification information with the successfully matched survey location information.

Specifically, a terminal identification code is preset in the processing module 21 of the handheld terminal 2, and the terminal identification code is uniquely determined corresponding to a certain handheld terminal 2. The processing module 21 performs data processing on the identification information and the terminal identification code and then sends the processed identification information and the terminal identification code to the server 3 through the communication module 24, and the processing module 21 performs data processing on the actual position information and the terminal identification code and then sends the processed actual position information and the terminal identification code to the server 3 through the communication module 24.

The server 3 associates the other information corresponding to the terminal identification code with the exploration position information that is successfully matched with the actual position information corresponding to the terminal identification code, based on the terminal identification code.

Referring to fig. 3, S31, the fixing terminal 4 acquires identification information and test results preset in the electronic tag 1 provided on the sample container.

Specifically, the fixed terminal 4 is disposed in a laboratory, and the local computer 41 is connected to a test device in the laboratory, and is configured to obtain a test result; and the local computer 41 is used for storage and processing of data. The scanning module 42 is configured to obtain identification information preset in the electronic tag 1, and send the identification information to the local computer 41.

S32, the fixed terminal 4 sends the identification information and the test result to the server 3.

Specifically, the local computer 41 has an identification code preset therein, and the local computer 41 performs data processing on the identification code, the identification information, and the test result and then sends the processed result to the server 3.

S26, the server 3 correlates the test results with the survey location information associated with the identification information and generates a geological model.

S27, the server 3 receives the identification information transmitted from the fixed terminal 4 and disassociates the identification information from the survey location information.

Specifically, the server 3 determines that the data originated from the local computer 41 based on the identification code, and the server 3 disassociates the identification information from the survey location information.

S28, the server 3 calculates whether the target architectural structure design meets the standard of the architectural design based on the geological model.

Specifically, the target architectural structure design and the specification standard of the architectural design can be input by a person through a keyboard and other devices. During calculation, whether the standard of the building design is met or not is judged based on various indexes in the geological model and the target building structure design (layout, area and the like), and a result is output to be referred by designers.

The implementation principle of the method for judging the optimization scheme of the architectural reconnaissance design in the embodiment of the application is as follows: after the exploration point is drilled and sampled, before a sample is placed in a sample container, the handheld terminal 2 is used for acquiring actual position information and identification information corresponding to the sample container and sending the actual position information and the identification information to the server 3, and the server 3 associates the identification information with the exploration position information successfully matched to realize the association between the sample container and the exploration point;

after the sample container is sent to a laboratory, along with the progress of a test, the test result is sequentially sent to the server 3, the server 3 automatically generates and perfects a geological model, whether the target building structural design meets the standard is automatically judged, and the result is output to be referred by designers.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A method for judging an optimization scheme of architectural reconnaissance design is characterized by comprising the following steps:

the handheld terminal (2) acquires actual position information and identification information preset in an electronic tag (1) arranged on a sample container;

the server (3) receives the actual position information sent by the handheld terminal (2) and matches the actual position information with one or more pieces of preset exploration position information;

the server (3) receives the identification information sent by the handheld terminal (2) and associates the received identification information with the exploration position information successfully matched.

2. The method of claim 1, further comprising the steps of:

a fixed terminal (4) arranged in a laboratory acquires identification information preset in an electronic tag (1) arranged on a sample container;

the server (3) receives the identification information sent by the fixed terminal (4) and cancels the association between the identification information and the exploration position information.

3. The method of claim 1, further comprising the steps of:

a fixed terminal (4) arranged in a laboratory acquires identification information and a test result preset in an electronic tag (1) arranged on a sample container;

the fixed terminal (4) sends the identification information and the test result to the server (3);

the server (3) correlates the test results with the exploration position information correlated with the identification information and generates a geological model.

4. The method of claim 3, further comprising the steps of:

the server (3) calculates whether the target building structure design meets the standard of building design based on the geological model.

5. The method according to claim 1, wherein the step between the handheld terminal (2) obtaining the actual position information and the identification information preset in the electronic tag (1) arranged on the sample container and the step server (3) receiving the actual position information sent by the handheld terminal (2) and matching the actual position information with the preset exploration position information or exploration position information further comprises the following steps:

the handheld terminal (2) sends the identification information to the server (3);

under the condition that the identification information received by the server (3) has exploration position information associated with the identification information, the server (3) sends an alarm instruction to the handheld terminal (2);

the handheld terminal (2) responds to the warning instruction to send out warning.

6. The method according to claim 1, wherein the step between the handheld terminal (2) obtaining the actual position information and the identification information preset in the electronic tag (1) arranged on the sample container and the step server (3) receiving the actual position information sent by the handheld terminal (2) and matching the actual position information with the preset exploration position information or exploration position information further comprises the following steps:

the handheld terminal (2) sends the identification information to the server (3);

under the condition that the identification information received by the server (3) does not have exploration position information associated with the identification information, the server (3) sends a sampling instruction to the handheld terminal (2);

the hand-held terminal (2) responds to the sampling instruction to send the actual position information to the server (3).

7. A system for judging an optimization scheme of architectural reconnaissance design is characterized in that: the system comprises an electronic tag (1), a handheld terminal (2) and a server (3);

the electronic tag (1) is connected to a sample container, and identification information is preset in the electronic tag (1);

the handheld terminal (2) is used for acquiring actual position information and identification information preset in the electronic tag (1) arranged on the sample container;

one or more pieces of exploration position information are preset in the server (3); the server (3) is used for receiving the actual position information sent by the handheld terminal (2) and matching the actual position information with one or more pieces of preset exploration position information; and the server (3) is used for receiving the identification information sent by the handheld terminal (2) and correlating the received identification information with the exploration position information successfully matched.

8. The system of claim 7, wherein: the device also comprises a fixed terminal (4) arranged in a laboratory; the fixed terminal (4) is used for acquiring preset identification information and test results in the electronic tag (1) arranged on the sample container, and the fixed terminal (4) sends the identification information and the test results to the server (3).

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