CN114066053A - Construction scheme pushing method and device based on geological early warning and storage medium - Google Patents

Abstract

The invention discloses a pushing method, a pushing device and a storage medium of a construction scheme based on geological early warning, on one hand, the pushing method, the pushing device and the storage medium can carry out advanced geological detection on a to-be-constructed area, and can carry out optimal matching of the construction scheme in a construction scheme database by taking a geological detection result and a construction type as key words, so that the quality of the construction scheme is ensured, the formulation efficiency of the construction scheme is improved, meanwhile, wrong construction in the construction process is avoided, and project construction can be finished at the highest speed and with the highest benefit; on the other hand, when each procedure is constructed, the optimal matching of procedure construction schemes can be carried out, so that the optimal construction technical scheme is pushed to the site, the scheme is more appropriate to the actual construction situation of the site, and the method is more practical and convenient and directly hits construction pain points; in addition, construction risk early warning prompt information can be sent to constructors, and therefore timely early warning prompt of construction risks can be achieved, accident loss is avoided, and construction safety is guaranteed.

Description

Construction scheme pushing method and device based on geological early warning and storage medium

Technical Field

The invention belongs to the technical field of construction scheme pushing, and particularly relates to a construction scheme pushing method and device based on geological early warning and a storage medium.

Background

In recent years, the infrastructure work of China enters a rapid development period, and constructed roads, bridges and tunnels are numerous and have become a major country of infrastructure; in the process of constructing basic engineering such as tunnels, bridges, highways and the like, because geologic bodies are complex and changeable and are often subjected to unfavorable geological conditions such as faults, karst caves, broken zones, underground rivers, high ground stress and the like, if the front geological conditions cannot be mastered in time, geological disasters such as collapse, water burst, rock burst and even debris flow are likely to be caused in the construction process, and therefore, the formulation of an engineering construction scheme is important.

At present, for the formulation of the construction scheme, most technical personnel with different experiences compile, the reference of the construction scheme is generally the template retained by the ancestors, the experience of the oral and oral professors and the similar scheme searched in the internet by self, then the construction scheme is modified and perfected on the basis, and finally the construction scheme is submitted to the examination and approval department for auditing, and the formulation method of the construction scheme has the following defects: due to different abilities of technicians, the established construction scheme has different quality, not only can the construction progress of a project be influenced, but also certain construction safety hazards exist, meanwhile, the efficiency is low, and the construction scheme cannot be rapidly matched and established according to geological conditions; therefore, a construction scheme quick pushing method based on geological conditions is urgently provided.

Disclosure of Invention

The invention aims to provide a construction scheme pushing method, a construction scheme pushing device and a storage medium based on geological early warning, and aims to solve the problems of uneven quality and low formulation efficiency of the existing construction scheme.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a construction scheme pushing method based on geological early warning, which comprises the following steps:

acquiring a construction log of a construction project;

obtaining a next construction area of the construction project and a construction type corresponding to the next construction area according to the construction log;

sending the next construction area to a construction terminal so that a constructor can perform advanced geological detection on the next construction area to obtain a geological detection result of the next construction area;

obtaining a geological detection result of the next construction area;

searching a construction technical scheme matched with the first screening index in a construction scheme database by taking the geological detection result and the construction type as first screening indexes, and taking the construction technical scheme as a first construction scheme;

and sending the first construction scheme to a construction terminal so that a constructor can carry out construction operation on the next construction area according to the first construction scheme.

Based on the disclosure, the database storing multiple construction schemes is constructed, then, in the construction process, the next construction area can be obtained according to the construction log, advanced geological detection is carried out on the next construction area, and therefore the geological detection result of the next construction area is obtained (for example, advanced geological forecast is carried out on the tunnel, the grade of surrounding rocks in a certain section of the tunnel is obtained, and geological conditions such as water burst and the like exist or not), then, the construction type and the geological detection result of the next construction area are used as key words, key word searching and matching are carried out in the construction scheme database, so that the construction scheme matched with the key words is obtained, and finally, a constructor can carry out construction operation on the construction area according to the construction scheme; through the design, the optimal construction scheme can be quickly obtained according to the geological conditions and the construction types of the construction areas for different construction areas, so that the quality of the construction scheme is guaranteed, the formulation efficiency of the construction scheme is improved, and meanwhile, the construction process can be completed with less bending, so that the project construction can be completed at the highest speed and the highest benefit.

In one possible design, after obtaining the geological detection result of the next construction area, the method further includes:

judging whether the next construction area has construction risks or not according to the geological detection result;

if so, generating construction risk early warning prompt information of the next construction area;

and sending the construction risk early warning prompt information to the construction terminal so as to prompt the risk of the constructors.

Based on the disclosure, after the geological detection result of the next construction area is obtained, whether construction risks exist or not is judged according to the detection result, and if yes, construction risk early warning prompt information can be sent to constructors; therefore, the problem that the information transmission steps are complex in manual transmission can be avoided, the information transmission efficiency is improved, and timely early warning prompt of construction risks is achieved, so that accident loss is avoided, and construction safety is guaranteed.

In one possible design, after obtaining the geological detection result of the next construction area, the method further includes:

generating geological updating information of the next construction area according to the geological detection result;

and replacing the original geological information of the next construction area in a geological information database by using the geological updating information so as to complete the updating of the geological information of the next construction area.

Based on the disclosure, the method can realize the real-time update of the geological information of the construction area, thereby ensuring the timeliness of the geological information of the construction area.

In one possible design, after sending the first construction plan to a construction terminal, the method further includes:

acquiring the current construction process of the next construction area and geological burst information in the construction process;

searching a construction technical scheme matched with the second screening index in the construction scheme database by taking the construction type of the next construction area, the current construction process and the geological burst information as second screening indexes, and taking the construction technical scheme as an emergency construction scheme;

and sending the emergency construction scheme to a construction terminal so that a constructor can carry out emergency construction operation on the next construction area according to the emergency construction scheme.

Based on the disclosure, the method can acquire geological burst information in the construction process and the current construction process (such as geological burst situations of water burst and the like in the process of carrying out tunnel construction guniting) in real time, so that the process and the emergency construction scheme under the geological burst situations can be quickly matched according to the acquired geological burst situations and the current process, and emergency construction can be carried out when the geological burst situations occur; through the design, the emergency response speed in the construction process is improved, and the construction safety is further improved.

In one possible design, after obtaining a construction log of a construction project, the method further includes:

according to the construction log, obtaining the construction type, geological information and the next construction process of a construction area corresponding to the construction log;

taking the construction type, geological information and the next construction process of the construction area corresponding to the construction log as a third screening index, and searching a construction technical scheme matched with the third screening index from the construction scheme database to be used as a second construction scheme;

and sending the second construction scheme to the construction terminal so that the constructor carries out construction operation on the construction area corresponding to the construction log according to the second construction scheme.

Based on the disclosure, the present invention can obtain the current construction area and the next construction process according to the construction log, and match the construction scheme of the next construction process by using the information as the key word, thereby ensuring to push the optimal construction technical scheme to the site when each process is carried out, ensuring the scheme to be more close to the actual construction situation of the site, being more practical and convenient, directly hitting the construction pain point, shortening the construction period and improving the construction quality.

In one possible design, before obtaining a construction log of a construction project, the method further includes:

acquiring construction types, geological information and engineering limitation information of the construction engineering, wherein the engineering limitation information comprises personnel ratio information, construction period information and material consumption quota information;

selecting a construction technical scheme matched with a fourth screening index from the construction scheme database by taking the construction type, the geological information and the engineering restriction information of the construction engineering as the fourth screening index, and taking the construction technical scheme matched with the fourth screening index as a comprehensive construction scheme of the construction engineering;

and sending the comprehensive construction scheme to a construction terminal so that a constructor carries out construction operation on a construction project according to the comprehensive construction scheme.

Based on the above disclosure, the construction type (such as tunneling), geological information (such as surrounding rock grade) and engineering restriction information of the construction project can be used as key words, and the construction project can be quickly matched with the optimal construction scheme, so that the construction scheme is more appropriate to the actual construction situation of the site, and the method is more practical and convenient and can directly hit construction pain points.

In a second aspect, the present invention provides a pushing device for a construction scheme based on geological early warning, including:

the acquisition unit is used for acquiring a construction log of a construction project;

the construction area determining unit is used for obtaining a next construction area of the construction project and a construction type corresponding to the next construction area according to the construction log;

the sending unit is used for sending the next construction area to a construction terminal so that a constructor can carry out advanced geological detection on the next construction area to obtain a geological detection result of the next construction area;

the acquisition unit is further used for acquiring a geological detection result of the next construction area;

the searching unit is used for searching a construction technical scheme matched with the first screening index in a construction scheme database by taking the geological detection result and the construction type as the first screening index to serve as a first construction scheme;

the sending unit is further configured to send the first construction scheme to a construction terminal, so that a constructor performs construction operation on the next construction area according to the first construction scheme.

In one possible design, the apparatus further includes:

the judging unit is used for judging whether the next construction area has construction risks or not according to the geological detection result;

the early warning unit is used for generating a construction risk early warning prompt of the next construction area when the judgment unit judges that the construction area is the next construction area;

and the sending unit is also used for sending the construction risk early warning prompt to the construction terminal so as to prompt the risk of the constructors.

In a third aspect, the present invention provides another pushing device for a construction plan based on geological early warning, which takes a device as a computer main device as an example, and includes a memory, a processor and a transceiver, which are sequentially connected in a communication manner, where the memory is used to store a computer program, the transceiver is used to transmit and receive messages, and the processor is used to read the computer program and execute the pushing method for the construction plan based on geological early warning as may be designed in any one of the first aspect and the first aspect.

In a fourth aspect, the present invention provides a storage medium, where instructions are stored, and when the instructions are executed on a computer, the pushing method of the construction plan based on geological early warning as described in the first aspect or any one of the first aspects may be performed.

In a fifth aspect, the present invention provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the method of pushing the geological early warning-based construction scheme as may be devised in the first aspect or any one of the first aspects.

Drawings

Fig. 1 is a schematic system architecture diagram of a pushing system of a construction scheme based on geological early warning provided by the invention;

FIG. 2 is a schematic flow chart illustrating steps of a pushing method of a construction scheme based on geological early warning provided by the invention;

FIG. 3 is a block diagram of a pushing flow of a construction scheme provided by the present invention;

FIG. 4 is a schematic structural diagram of a pushing device of a construction scheme based on geological early warning provided by the invention;

fig. 5 is a schematic structural diagram of a computer main device provided in the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the invention. This invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of example embodiments of the present invention.

It should be understood that, for the term "and/or" as may appear herein, it is merely an associative relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, B exists alone, and A and B exist at the same time; for the term "/and" as may appear herein, which describes another associative object relationship, it means that two relationships may exist, e.g., a/and B, may mean: a exists independently, and A and B exist independently; in addition, for the character "/" that may appear herein, it generally means that the former and latter associated objects are in an "or" relationship.

Examples

As shown in fig. 1, a system architecture in application is provided for the present application, that is, in application to the infrastructure construction process, the system may include, but is not limited to: the construction terminal (which may be but not limited to a mobile phone, a computer and/or a tablet), the server and the management terminal (which may be but not limited to a mobile phone, a computer and/or a tablet), wherein the construction terminal is configured to each on-site constructor and/or department, such as a team and/or a project department, and the management terminal may be but not limited to those and/or departments which are not on the construction site, such as a high-rise constructor and a high-rise first-rise constructor, and meanwhile, a construction plan database is stored in the server, so that when receiving geological detection results, construction types and other information uploaded by the construction terminal and/or the management terminal, the pushing method provided by the embodiment is used for optimal matching of the construction plan to obtain an optimal construction plan, thereby ensuring the quality of the construction plan and improving the formulation efficiency of the construction plan, meanwhile, the construction error in the construction process can be avoided, and the purpose of completing project construction with the highest speed and the highest benefit is achieved.

According to the pushing method of the construction scheme based on the geological early warning, on one hand, advanced geological detection can be carried out on a to-be-constructed area, and optimal matching of the construction scheme can be carried out in the construction scheme database by taking a geological detection result and a construction type as keywords, so that the quality of the construction scheme is guaranteed, the formulation efficiency of the construction scheme is improved, meanwhile, wrong construction in the construction process is avoided, and project construction can be completed at the highest speed and the highest benefit; on the other hand, when each procedure is constructed, the optimal matching of procedure construction schemes can be carried out, so that the optimal construction technical scheme is pushed to the site, the scheme is more appropriate to the actual construction situation of the site, the method is more practical and convenient, the construction pain point is directly hit, and the aims of shortening the construction period and improving the construction quality are fulfilled; in addition, construction risk early warning prompt information can be sent to constructors according to the advanced geological detection result, and therefore timely early warning prompt of construction risks can be achieved, accident loss is avoided, and construction safety is guaranteed.

Referring to fig. 2 and fig. 3, the pushing method of the construction scheme based on geological early warning provided in the first aspect of the present embodiment may be, but is not limited to, applied to the fields of tunnel construction, highway construction, bridge construction, building construction, and/or municipal construction, and may include, but is not limited to, the following steps S1 to S6; of course, the foregoing steps S1-S6 may be, but are not limited to being, performed on the server side.

S1, acquiring a construction log of a construction project.

And S2, obtaining a next construction area of the construction project and a construction type corresponding to the next construction area according to the construction log.

In this embodiment, the constructor uploads the construction log by using the construction terminal, and the construction log may include, but is not limited to: the server receives a construction log and then obtains a next construction area and a corresponding construction type according to the log; certainly, the example server further stores engineering information corresponding to the whole construction engineering, such as construction length, divided construction areas, information of construction parties, and the like, so as to query the construction engineering information.

After the next construction area is obtained, the next construction area can be sent to the construction terminal, and after receiving the information, the constructor corresponding to the construction terminal can perform advanced geological detection on the next construction area so as to obtain geological information corresponding to the area, and provide a data base for matching of subsequent construction schemes, as shown in the following steps S3 and S4.

And S3, sending the next construction area to a construction terminal so that a constructor can perform advanced geological detection on the next construction area to obtain a geological detection result of the next construction area.

And S4, acquiring a geological detection result of the next construction area.

In the embodiment, for example, a constructor carries out geological detection on the next construction area offline, and uploads the detection result to the server through the construction terminal after obtaining the detection result; for example, assume that the next construction area from the construction log is: the ZH100+13-ZH100+14 section area of the tunnel I, the construction type corresponding to the area is the tunnel construction, and constructors use technical means such as drilling and modern geophysical prospecting to carry out geological prospecting on the ZH100+13-ZH100+14 section area of the tunnel 1, grasp geological conditions such as rock and soil body structure, properties, states, underground water, gas, ground stress and the like in the area, so that the position, the attitude and the integrity of surrounding rock structures of the poor geological body in front of the tunnel face and the possibility of water containing can be grasped through the geological conditions, and accurate matching data information is provided for matching of subsequent construction schemes.

After the geological detection result and the construction type of the next construction area are obtained, the optimal construction plan can be matched, as shown in the following step S5.

And S5, with the geological detection result and the construction type as first screening indexes, searching a construction technical scheme matched with the first screening indexes in a construction scheme database to serve as a first construction scheme.

The principle of step S5 is: and taking the geological detection result and the construction type as a first screening index, namely a keyword, performing keyword matching in the construction scheme database, and taking the scheme with the highest matching degree as a final output scheme, namely a first construction scheme.

In this embodiment, when performing keyword matching, the specific matching method is as follows: and in the matched construction scheme, for each keyword, the matching is successful, the matching degree of the construction scheme is added by 1, finally, the ranking is carried out according to the total matching degree score of the matched construction scheme, and the highest total matching degree score is taken as an output result, namely the first construction scheme.

Referring to fig. 3, for example, based on the foregoing example, it is assumed that the geological detection results of the ZH100+13-ZH100+14 segment region of tunnel No. 1 are: v level surrounding rock, there is the case of gushing water, then first screening index is then: tunnel construction, class V surrounding rocks and water gushing, namely, searching and matching in a construction scheme database according to the three keywords, wherein the searched keywords comprise a construction scheme A (the successfully matched keywords are the tunnel construction, the class V surrounding rocks and the water gushing, the total matching degree score is 3), a construction scheme B (the successfully matched keywords are the tunnel construction and the water gushing, the total matching degree score is 2), and a construction scheme C (the successfully matched keywords are the tunnel construction, and the total matching degree score is 1); thus, according to the rules set forth above, construction plan a is output, i.e., as the first construction plan.

In addition, the server of the embodiment is also provided with an expert system, so that when a plurality of construction schemes with the same score are matched, an optimal one of the construction schemes is selected and output to obtain an optimal construction scheme; in this embodiment, the expert system is an online evaluation system composed of a plurality of construction experts, and is evaluated by experts in real time.

In this embodiment, the example construction plan database is constructed in advance and is pre-stored in the server, which may include, but is not limited to: the construction method comprises the following steps of (1) constructing various capital constructions (such as bridges, municipal works, tunnels, railways, highways and the like) under different geological conditions and normal construction of different construction types and construction schemes under various emergent conditions, wherein the sources of the construction schemes can be but not limited to various periodicals, documents, papers, construction organization designs and the like, and the construction schemes comprise a complete set of schemes and schemes split according to working procedures; if the tunneling construction process can be split into: excavating, deslagging, erecting and spraying, so that the database comprises an integral technical scheme of tunnel excavation construction, the integral construction scheme covers the specific construction steps of the 4 working procedures, and meanwhile, the specific steps of the 4 working procedures are independently stored as a construction scheme; therefore, the construction scheme database classified in detail is constructed, the matching accuracy of the scheme can be guaranteed, the quality and the formulation efficiency of the construction scheme are improved, the scheme is more appropriate to the actual construction situation of the site, and the construction method is more practical and convenient and directly hits construction pain points.

After the optimal construction plan for the next construction area is obtained, the matched construction plan may be transmitted to a construction terminal so as to perform construction work according to the construction plan, as shown in the following step S6.

And S6, sending the first construction scheme to a construction terminal so that a constructor can carry out construction operation on the next construction area according to the first construction scheme.

In this embodiment, after the optimal construction scheme of the next construction area is obtained, the optimal construction scheme can also be sent to the management terminal for storage; therefore, through the design, the optimal construction technical scheme can be pushed according to the corresponding geological conditions of different construction areas, so that the curved path is avoided in the construction process, and the project construction is finished in the mode of highest speed, maximum benefit, highest quality and safest.

Meanwhile, in the embodiment, risk early warning and geological updating can be performed on the next construction area, so that the geological detection result can be uploaded quickly, as shown in the following steps S41 to S43 and S44 to S45.

Namely, after the server obtains the geological detection result of the next construction area, the risk early warning can be carried out, and the method comprises the following steps:

and S41, judging whether the next construction area has construction risks or not according to the geological detection result.

And S42, if so, generating a construction risk early warning prompt of the next construction area.

S43, the construction risk early warning prompt is sent to the construction terminal so as to prompt the risk of the constructor.

In step S41, determining whether there is a construction risk is determining whether there is a sensitive word in the geological detection result, for example, if there is a sensitive word, it may be determined that there is a risk, where the sensitive word represents that a geological emergency is likely to occur in the construction process, for example, for a tunnel, water gushing and mud burst are both used as sensitive words, for a highway, a mountain is broken, a longitudinal slope is greatly reduced, and also used as sensitive words (which may cause debris flow); of course, the sensitive words are also preset into the server.

For example, taking a tunnel as an example, if the geological detection result is a v-level surrounding rock, and water gushing and mud outburst exist, it is determined that the construction risk exists in the construction area; for another example, for highway construction, in a construction area adjacent to a mountain, the obtained geological detection result is as follows: if the mountain is broken and the longitudinal slope is greatly reduced, sensitive words exist, and debris flow possibly occurs in the construction process, so that the construction risk of the area can be determined; of course, the risk determination of the rest of the regions is performed according to the corresponding sensitive words, and the principle is consistent with the foregoing, which is not described herein.

In this embodiment, the construction risk early warning prompt may be, but is not limited to: the text information is sent by adopting the following format: "construction area" + "possible geological disasters" + "warning words and suggestions"; of course, the content of the early warning prompt is also prestored in the server, and the content can be called when in use.

Therefore, through the steps S41-S43, timely risk early warning prompt can be carried out on constructors, the problem that the steps of manual information transmission are complex is solved, the information transmission efficiency is improved, meanwhile, accident loss can be avoided, and construction safety is guaranteed.

Similarly, the updating process of the geological information of the next construction area is as shown in the following steps S44 and S45.

And S44, generating the geological updating information of the next construction area according to the geological detection result.

And S45, replacing the original geological information of the next construction area in a geological information database by using the geological updating information so as to finish updating the geological information of the next construction area.

Referring to fig. 3, the tunnel No. 1 is taken as an example: the geological detection result of the ZH100+13-ZH100+14 section area of the tunnel No. 1 is as follows: and V-level surrounding rock, if water inrush exists, the updating process is as follows: matching the pile numbers of the tunnels, namely finding out the ZH100+13-ZH100+14 pile numbers in a geological information database, and then replacing geological information corresponding to the pile numbers, namely if the original geological information is: and IV-grade surrounding rock, if water gushing exists, the replacement is as follows: and the surrounding rock of the V level has water inrush condition.

Therefore, through the design, the advanced geological detection result can be directly reported to the server, so that the geological information of the construction area is updated in real time, and the timeliness of the geological information of the construction area is guaranteed.

In addition, in the embodiment, when a geological emergency occurs during the construction process, a corresponding solution can be pushed in time to improve the construction safety, as shown in the following steps S20 to S22.

And S20, acquiring the current construction process of the next construction area and geological burst information in the construction process.

And S21, searching a construction technical scheme matched with the second screening index in the construction scheme database by taking the construction type of the next construction area, the current construction process and the geological burst information as second screening indexes, and using the construction technical scheme as an emergency construction scheme.

And S22, sending the emergency construction scheme to a construction terminal so that a constructor can carry out emergency construction operation on the next construction area according to the emergency construction scheme.

The principle of the foregoing steps S20 to S22 is: in the construction process, if a geological emergency occurs, at the moment, a constructor can utilize a construction terminal to send a current construction process and geological emergency information to a server, and the server can use the current construction process and the geological emergency information as second screening indexes, namely, as keywords to search and match, and matches a construction technical scheme corresponding to the information to be returned to the construction terminal as an emergency construction scheme, so that the constructor can conveniently perform emergency treatment.

Similarly, the server is also provided with an emergency treatment scheme database, so that when a geological emergency occurs in the construction process, the geological emergency information and the corresponding construction type can be used as keywords, scheme retrieval is carried out in the emergency treatment scheme database, and an emergency scheme corresponding to the keywords is matched, so that the emergency treatment capacity and speed can be improved, accidents are avoided, and the construction safety is improved.

Therefore, by the pushing method of the construction scheme described in detail in the foregoing steps S1 to S6, the present invention has the following advantages: (1) the advanced geological detection result can be directly reported to the server, so that the complicated steps of manual information transmission are reduced, and managers such as constructors, owners and project managers can directly receive early warning prompts, so that the advance and the timely processing are facilitated, and the construction safety is improved; (2) aiming at construction areas of various geological conditions, the server can push an optimal construction technical scheme to constructors, so that the problem of a curved road in the construction process is avoided, and project construction can be finished at the highest speed and the highest benefit; (3) in the construction process, aiming at various emergency situations, corresponding solutions can be matched and pushed timely and accurately, so that the accident loss is avoided, and the construction safety is further improved.

The second aspect of the present embodiment is further optimized based on the first aspect of the present embodiment to push the overall construction plan of the construction project and to match the optimal plan of the next construction process according to the construction log, as shown in the following steps S30 to S32 and S40 to S42.

First, the pushing process of the overall construction plan of the construction project will be described as shown in the following steps S30 to S32.

And S30, acquiring the construction type, geological information and engineering limitation information of the construction engineering, wherein the engineering limitation information comprises personnel ratio information, construction period information and material consumption quota information.

And S31, screening a construction technical scheme matched with a fourth screening index from the construction scheme database by taking the construction type, the geological information and the engineering restriction information of the construction engineering as the fourth screening index, and taking the construction technical scheme as a comprehensive construction scheme of the construction engineering.

And S32, sending the comprehensive construction scheme to a construction terminal so that a constructor can carry out construction operation on a construction project according to the comprehensive construction scheme.

The principle of the foregoing steps S30 to S32 is: and matching the construction type, the geological information and the engineering restriction information serving as keywords in a construction scheme database, so as to find out the construction scheme corresponding to the keywords, wherein the principle of the construction scheme is consistent with that of the step S5, and further description is omitted.

The following is explained by taking an example, assuming that the construction type is tunneling construction, the geological information is v-level surrounding rock, and the engineering restriction information is: staff ratio information (constructor 80, project group 10 people, material group 10 people), the time limit for a project information is: in 1 year, the material consumption quota is: soft stone 6.88 yuan/m, hard stone 7.03 yuan/m, soil property 8.33 yuan/m; therefore, the server can search by taking the information as a keyword, so as to obtain an optimal construction technical scheme which accords with the information; meanwhile, the tunneling construction comprises four procedures of excavation, slag tapping, erecting and guniting, so that the output construction technical scheme also comprises the detailed construction scheme of the 4 procedures, namely the detailed construction scheme of the 4 procedures forms a comprehensive construction scheme of the construction engineering.

Certainly, in this embodiment, scheme matching may also be performed for a certain step, and the matching principle is shown in step S31, which is not described herein; meanwhile, for example, each process is marked individually in the form of a subtitle, for example, the excavation is searched, and the content from the subtitle of excavation to the subtitle of slag tapping can be extracted as the search result when matching.

In addition, the present embodiment may also obtain the next construction process from the construction log, and perform pushing of the optimal plan, as shown in steps S40 to S42 below.

And S40, obtaining the construction type, geological information and the next construction process of the construction area corresponding to the construction log according to the construction log.

And S41, searching a construction technical scheme matched with the third screening index from the construction scheme database by taking the construction type, the geological information and the next construction process of the construction area corresponding to the construction log as third screening indexes, and taking the construction technical scheme as a second construction scheme.

And S42, sending the second construction scheme to the construction terminal so that the constructor can carry out construction operation on the construction area corresponding to the construction log according to the second construction scheme.

The foregoing steps S40 to S42 are described below as an example:

assuming that the current construction area is ZH100+12-ZH100+13 of tunnel No. 1, the geological information is as follows: v-level surrounding rock, the construction type is tunnel construction, and the current construction process is: the vertical frame process, therefore, according to the tunnel construction process, the next construction process is guniting; therefore, the scheme matching is performed in the construction scheme database by using the v-level surrounding rock, the tunnel construction and the guniting as the key words, so as to obtain the optimal construction scheme for the guniting process, that is, obtain the second construction scheme.

Therefore, by the construction scheme pushing method described in detail in the steps S30-S32 and S40-S42, the optimal matching of the process construction scheme can be carried out during each process construction, so that the optimal construction technical scheme is pushed to the site, the scheme is closer to the actual construction situation of the site, the method is more practical and convenient, the construction pain point is directly hit, and the purposes of shortening the construction period and improving the construction quality are achieved.

As shown in fig. 4, a third aspect of the present embodiment provides a hardware device for implementing the pushing method for the construction scheme based on geological early warning in the first aspect or the second aspect of the embodiment, including:

and the acquisition unit is used for acquiring a construction log of the construction project.

And the construction area determining unit is used for obtaining the next construction area of the construction project and the construction type corresponding to the next construction area according to the construction log.

And the sending unit is used for sending the next construction area to a construction terminal so that a constructor can carry out advanced geological detection on the next construction area to obtain a geological detection result of the next construction area.

The obtaining unit is further configured to obtain a geological detection result of the next construction area.

And the searching unit is used for searching a construction technical scheme matched with the first screening index in a construction scheme database by taking the geological detection result and the construction type as the first screening index, and taking the construction technical scheme as a first construction scheme.

The sending unit is further configured to send the first construction scheme to a construction terminal, so that a constructor performs construction operation on the next construction area according to the first construction scheme.

In one possible design, the apparatus further includes:

and the judging unit is used for judging whether the next construction area has construction risks or not according to the geological detection result.

And the early warning unit is used for generating a construction risk early warning prompt of the next construction area when the judgment unit judges that the construction area is the next construction area.

And the sending unit is also used for sending the construction risk early warning prompt to the construction terminal so as to prompt the risk of the constructors.

For the working process, the working details, and the technical effects of the hardware apparatus provided in this embodiment, reference may be made to the first aspect or the second aspect of the embodiment, which is not described herein again.

As shown in fig. 5, a fourth aspect of this embodiment provides another pushing device for a construction scheme based on geological early warning, taking the device as a computer main device as an example, including: the geological early warning system comprises a memory, a processor and a transceiver which are sequentially connected in a communication manner, wherein the memory is used for storing a computer program, the transceiver is used for transceiving messages, and the processor is used for reading the computer program and executing the pushing method of the construction scheme based on geological early warning according to the first aspect or the second aspect of the embodiment.

For example, the Memory may include, but is not limited to, a Random Access Memory (RAM), a Read Only Memory (ROM), a Flash Memory (Flash Memory), a First In First Out (FIFO), and/or a First In Last Out (FILO), and the like; the processor may not be limited to a microprocessor of a model number STM32F105 series, a reduced instruction set computer (RSIC) microprocessor, an architecture processor such as X86, or a processor integrated with a neural-Network Processing Unit (NPU); the transceiver may be, but is not limited to, a wireless fidelity (WIFI) wireless transceiver, a bluetooth wireless transceiver, a General Packet Radio Service (GPRS) wireless transceiver, a ZigBee wireless transceiver (ieee802.15.4 standard-based low power local area network protocol), a 3G transceiver, a 4G transceiver, and/or a 5G transceiver, etc. In addition, the device may also include, but is not limited to, a power module, a display screen, and other necessary components.

For the working process, the working details, and the technical effects of the computer main device provided in this embodiment, reference may be made to the first aspect or the second aspect of the embodiment, which is not described herein again.

A fifth aspect of the present embodiment provides a storage medium storing instructions including the pushing method for a construction plan based on geological early warning according to the first aspect or the second aspect, that is, the storage medium stores instructions that, when executed on a computer, perform the pushing method for a construction plan based on geological early warning according to the first aspect or the second aspect.

The storage medium refers to a carrier for storing data, and may include, but is not limited to, a floppy disk, an optical disk, a hard disk, a flash Memory, a flash disk and/or a Memory Stick (Memory Stick), etc., and the computer may be a general-purpose computer, a special-purpose computer, a computer network, or other programmable devices.

For the working process, the working details, and the technical effects of the storage medium provided in this embodiment, reference may be made to the first aspect or the second aspect of the embodiment, which is not described herein again.

A sixth aspect of the present embodiments provides a computer program product comprising instructions, which when run on a computer, cause the computer to execute the method for pushing a construction plan based on geological early warning according to the first or second aspect of the present embodiments, wherein the computer may be a general-purpose computer, a special-purpose computer, a computer network, or other programmable device.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A pushing method of a construction scheme based on geological early warning is characterized by comprising the following steps:

acquiring a construction log of a construction project;

obtaining a next construction area of the construction project and a construction type corresponding to the next construction area according to the construction log;

sending the next construction area to a construction terminal so that a constructor can perform advanced geological detection on the next construction area to obtain a geological detection result of the next construction area;

obtaining a geological detection result of the next construction area;

searching a construction technical scheme matched with the first screening index in a construction scheme database by taking the geological detection result and the construction type as first screening indexes, and taking the construction technical scheme as a first construction scheme;

and sending the first construction scheme to a construction terminal so that a constructor can carry out construction operation on the next construction area according to the first construction scheme.

2. The method of claim 1, wherein after obtaining the geological detection of the next construction area, the method further comprises:

judging whether the next construction area has construction risks or not according to the geological detection result;

if so, generating a construction risk early warning prompt of the next construction area;

and sending the construction risk early warning prompt to the construction terminal so as to prompt the risk of the constructor.

3. The method of claim 1, wherein after obtaining the geological detection of the next construction area, the method further comprises:

generating geological updating information of the next construction area according to the geological detection result;

and replacing the original geological information of the next construction area in a geological information database by using the geological updating information so as to complete the updating of the geological information of the next construction area.

4. The method of claim 1, wherein after sending the first construction plan to a construction terminal, the method further comprises:

acquiring the current construction process of the next construction area and geological burst information in the construction process;

searching a construction technical scheme matched with the second screening index in the construction scheme database by taking the construction type of the next construction area, the current construction process and the geological burst information as second screening indexes, and taking the construction technical scheme as an emergency construction scheme;

and sending the emergency construction scheme to a construction terminal so that a constructor can carry out emergency construction operation on the next construction area according to the emergency construction scheme.

5. The method of claim 1, wherein after obtaining a construction log for a construction project, the method further comprises:

according to the construction log, obtaining the construction type, geological information and the next construction process of a construction area corresponding to the construction log;

taking the construction type, geological information and the next construction process of the construction area corresponding to the construction log as a third screening index, and searching a construction technical scheme matched with the third screening index from the construction scheme database to be used as a second construction scheme;

and sending the second construction scheme to the construction terminal so that the constructor carries out construction operation on the construction area corresponding to the construction log according to the second construction scheme.

6. The method of claim 1, wherein prior to obtaining a construction log for a construction project, the method further comprises:

acquiring construction types, geological information and engineering limitation information of the construction engineering, wherein the engineering limitation information comprises personnel ratio information, construction period information and material consumption quota information;

selecting a construction technical scheme matched with a fourth screening index from the construction scheme database by taking the construction type, the geological information and the engineering restriction information of the construction engineering as the fourth screening index, and taking the construction technical scheme matched with the fourth screening index as a comprehensive construction scheme of the construction engineering;

and sending the comprehensive construction scheme to a construction terminal so that a constructor carries out construction operation on a construction project according to the comprehensive construction scheme.

7. The utility model provides a pusher of construction scheme based on geology early warning which characterized in that includes:

the acquisition unit is used for acquiring a construction log of a construction project;

the construction area determining unit is used for obtaining a next construction area of the construction project and a construction type corresponding to the next construction area according to the construction log;

the sending unit is used for sending the next construction area to a construction terminal so that a constructor can carry out advanced geological detection on the next construction area to obtain a geological detection result of the next construction area;

the acquisition unit is further used for acquiring a geological detection result of the next construction area;

the searching unit is used for searching a construction technical scheme matched with the first screening index in a construction scheme database by taking the geological detection result and the construction type as the first screening index to serve as a first construction scheme;

the sending unit is further configured to send the first construction scheme to a construction terminal, so that a constructor performs construction operation on the next construction area according to the first construction scheme.

8. The apparatus of claim 7, wherein the apparatus further comprises:

the judging unit is used for judging whether the next construction area has construction risks or not according to the geological detection result;

the early warning unit is used for generating a construction risk early warning prompt of the next construction area when the judgment unit judges that the construction area is the next construction area;

and the sending unit is also used for sending the construction risk early warning prompt to the construction terminal so as to prompt the risk of the constructors.

9. A pushing device for a construction scheme based on geological early warning is characterized by comprising a memory, a processor and a transceiver which are sequentially connected in a communication mode, wherein the memory is used for storing a computer program, the transceiver is used for receiving and sending messages, and the processor is used for reading the computer program and executing the pushing method for the construction scheme based on geological early warning as claimed in any one of claims 1 to 6.

10. A storage medium, characterized by: the storage medium is stored with instructions, and when the instructions are run on a computer, the pushing method of the construction scheme based on the geological early warning is executed according to any one of claims 1 to 6.

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