CN111401742A

CN111401742A - System for calculating clear list quantity and material consumption of engineering of each section of any section of tunnel

Info

Publication number: CN111401742A
Application number: CN202010182962.9A
Authority: CN
Inventors: 付忠锋
Original assignee: Mcc Guizhou Construction Investment Development Co ltd
Current assignee: Mcc Guizhou Construction Investment Development Co ltd
Priority date: 2020-03-16
Filing date: 2020-03-16
Publication date: 2020-07-10

Abstract

The invention provides a system for calculating the project inventory and material consumption of each section of any section of a tunnel. The system comprises: a recording module; a storage module; an input module; a calculation module; and an output module. The calculation module calculates intersection according to the starting and ending point mileage of the tunnel section to be calculated input by a user and the starting and ending point mileage input in the information of the storage module, and then the intersection result is multiplied by the distribution coefficient of each section of the tunnel respectively to obtain the project inventory and the material consumption of each section of the tunnel section to be calculated. By using the method, after all design parameters such as starting and ending point mileage, project inventory per linear meter, material consumption per linear meter, distribution coefficients of all sections of the tunnel and the like are recorded in the tunnel, the project inventory and the material consumption of all sections of any section of the tunnel can be obtained only by inputting the starting and ending point mileage of the section of the tunnel to be required.

Description

System for calculating clear list quantity and material consumption of engineering of each section of any section of tunnel

Technical Field

The invention relates to the field of engineering management systems, in particular to a system for calculating the clear list quantity and the material consumption of engineering of each section of any section of a tunnel.

Background

At present, many engineering management systems in the market can input relevant data of corresponding engineering, but developers of the systems may not know the basic service of a tunnel engineering project, so that the systems do not actually develop corresponding functions aiming at the basic service of the tunnel project. The tunnel is constructed by dividing a plurality of sections in the actual construction process, so that corresponding project inventory and material consumption are calculated by dividing the sections for services such as construction progress, output value, inspection, material demand quantity planning, material consumption and the like in the actual construction process.

The existing engineering management system has the problems that the clear list quantity and the material consumption of each section of a tunnel cannot be calculated, and the business requirements cannot be met.

Disclosure of Invention

The invention aims to provide a system for calculating the clear list quantity and the material consumption of each section of any section of a tunnel. By using the method, after all design parameters such as starting and ending point mileage, project inventory per linear meter, material consumption per linear meter, distribution coefficients of all sections of the tunnel and the like are recorded in the tunnel, the project inventory and the material consumption of all sections of any section of the tunnel can be obtained only by inputting the starting and ending point mileage of the section of the tunnel to be required.

The invention adopts the following technical scheme to realize the purpose of the invention: a system for calculating the clear single quantity and the material consumption of each section engineering of any section of a tunnel is characterized in that: the system comprises:

a logging module: a logging module: the module is used for a user to input starting and ending point mileage, project inventory per linear meter, material usage per linear meter and distribution coefficient information of each section of the tunnel;

a storage module: the module is used for storing information input by a user;

an input module: the module is used for inputting the starting and ending point mileage of a tunnel section to be solved by a user;

a calculation module: the module calculates intersection according to starting and ending point mileage of the tunnel section to be calculated input by a user and starting and ending point mileage input in the information of the storage module to obtain engineering list quantity and material usage of the tunnel section to be calculated, and then multiplies the engineering list quantity and the material usage of the tunnel section to be calculated by distribution coefficients of all sections of the tunnel respectively to obtain the engineering list quantity and the material usage of all sections of the tunnel section to be calculated;

an output module: the module is used for outputting the project list quantity and the material consumption of each section of the tunnel section to be obtained.

In the system for calculating the clear single quantity and the material consumption of each section project at any section of the tunnel, in the input module, the distribution coefficient of each section of the tunnel comprises an upper section analysis coefficient, an intermediate section distribution coefficient, a lower section distribution coefficient, an inverted arch excavation distribution coefficient, an inverted arch second lining distribution coefficient, an inverted arch filling distribution coefficient, a second lining distribution coefficient, a leveling layer and other distribution coefficients.

In the system for calculating the clear single quantity and the material consumption of each section project at any section of the tunnel, the sum of the upper section analysis coefficient, the middle section distribution coefficient, the lower section distribution coefficient, the inverted arch excavation distribution coefficient, the inverted arch second lining distribution coefficient, the inverted arch filling distribution coefficient, the second lining distribution coefficient, the leveling layer and other distribution coefficients is 1.

In the system for calculating the clear inventory and the material usage of each section of any section of the tunnel, the method for obtaining the clear inventory and the material usage of the section of the tunnel to be obtained by solving the intersection comprises the following steps:

calculating intersection of starting and ending point mileage of the tunnel section to be calculated input by the user and starting and ending point mileage recorded in the information of the storage module; if the starting and ending point mileage of the tunnel section to be solved input by the user does not comprise the input starting and ending point mileage, recording the project inventory amount and the material usage amount of the tunnel section to be solved as 0; if the starting and ending point mileage of the tunnel section to be solved input by the user completely comprises the recorded starting and ending point mileage, multiplying the recorded starting and ending point mileage length by the project order clearing amount per linear meter to obtain the project order clearing amount of the tunnel section to be solved, and multiplying the recorded starting and ending point mileage length by the material using amount per linear meter to obtain the material using amount of the tunnel section to be solved; if the starting and ending point mileage part of the tunnel section to be solved input by the user comprises the recorded starting and ending point mileage, the project clear list quantity of the tunnel section to be solved is obtained by multiplying the intersection length of the starting and ending point mileage of the tunnel section to be solved and the recorded starting and ending point mileage by the project clear list quantity per linear meter, and the material using quantity of the tunnel section to be solved is obtained by multiplying the intersection length by the material using quantity per linear meter.

In the system for calculating the clear single quantity and the material consumption of each section project at any section of the tunnel, the input module has the functions of inquiring, screening and filtering.

Compared with the prior art, the invention has the following beneficial effects:

1. by using the method, the engineering list quantity and the material consumption of each section of the tunnel section to be obtained can be obtained only by inputting the starting and ending point mileage of the tunnel, the engineering list quantity per linear meter, the material consumption per linear meter, the distribution coefficient of each section of the tunnel and other design parameters of the tunnel once by business personnel in a unified way and then inputting the starting and ending point mileage of the tunnel section to be obtained in use.

2. According to the invention, after the entry of the tunnel project list amount is finished, the calculation of the project list amount and the material amount of each section of the tunnel each time is finished by the method, and the obtained project list amount and the material amount of each section of the tunnel can be directly output and displayed, so that the workload of service personnel can be greatly reduced, errors are not easy to occur in system calculation and manual calculation, the service precision can be improved, and the requirements of users on the project list amount and the material amount of each section of the tunnel can be met.

Drawings

FIG. 1 is a schematic view of an operation interface for inputting information by the system input module;

FIG. 2 is a schematic diagram of an interface for storing parameters in a memory module of the system of the present invention;

FIG. 3 is a schematic diagram of an operation interface of the input module and the output module of the system of the present invention;

FIG. 4 is an enlarged schematic view of area A of FIG. 1;

FIG. 5 is an enlarged schematic view of region B of FIG. 1;

FIG. 6 is an enlarged schematic view of region C of FIG. 1;

FIG. 7 is an enlarged schematic view of area A of FIG. 2;

FIG. 8 is an enlarged schematic view of region B of FIG. 2;

FIG. 9 is an enlarged schematic view of region C of FIG. 2;

FIG. 10 is an enlarged schematic view of area A of FIG. 3;

FIG. 11 is an enlarged schematic view of region B of FIG. 3;

fig. 12 is an enlarged schematic view of region C in fig. 3.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

Examples are given. A system for calculating the clear single quantity and material consumption of each section project at any section of a tunnel comprises an entry module, a storage module, an input module, a calculation module and an output module.

A logging module: when the tunnel is used by a user, recording all starting and ending point mileage, project clearing amount per linear meter, material usage information per linear meter and distribution coefficients of all sections of the tunnel in the module; information such as a project name, a material number, a material name, a material specification, a material model, a calculation length meter number, a drawing length meter number, a conversion coefficient from the length meter number to the material unit, a drawing material number, a consumption coefficient, a consumption instruction, a list number, a list name, a production value unit price, a conversion coefficient from the length meter number to the list unit, a drawing list number, a list number and the like can also be input, and the information has corresponding input frames in an input interface of an input module, and is shown in figure 1;

for example, the starting and ending point mileage of a tunnel or the starting and ending point position of a certain section of surrounding rock is K1+50.00 and the ending point mileage is K2+50, (where K is a mileage mark symbol, an industry term, the unit before + is kilometer, the unit after + is meter, and K1+50 means 1050 meters, and is directly recorded as 1.05 kilometers in the system), for example, the starting point mileage of a certain tunnel is 1.05 and the ending point mileage is 3.05, which means that the starting point of the tunnel is 1050 meters of the line, and the ending point is 3050 meters of the line. And recording starting and ending point mileage of each tunnel section, and project clear amount per linear meter and material usage amount per linear meter of the tunnel section in a recording module. The project list amount is the number of projects calculated according to a metering rule, and the project list amount per linear meter is the number of the project list amounts in a unit distance. The amount of material per linear meter refers to the amount of material per unit distance. The distribution coefficient of each section of the tunnel comprises an upper section analysis coefficient, an intermediate section distribution coefficient, a lower section distribution coefficient, an inverted arch excavation distribution coefficient, an inverted arch second lining distribution coefficient, an inverted arch filling distribution coefficient, a second lining distribution coefficient, a leveling layer and other distribution coefficients. The distribution coefficient of each section of the tunnel can also be called a distribution factor, a scaling coefficient and other terms, and the distribution coefficient of each section is recorded by a user according to the actual situation, wherein the sum of the distribution coefficients of each section is 1. For example: bracket section steel: the upper section distribution system has a 0.3 section with 0.4 inverted arch of 0.3 and other sections with 0. The distribution coefficient sum of all the sections is preferably 1, the section distribution system which is not needed is selectively hidden or not recorded according to the needs of users, and the system processes the sections according to 0 by default. The sum of all the distribution systems is 1, and when the sum is not equal to 1, the error is reported, so that a client can conveniently find the reason and correct the reason in time.

The input module has the functions of inquiry, screening and filtering, for example, the input fields can be marked in a combined way or singly, and the filtering or inquiry can be carried out through the marks;

a storage module: the module stores design parameters and tunnel basic information data input by a user to form a document or a database;

an input module: the module is used for inputting the starting and ending mileage of a tunnel section to be solved by a user; the input interface is shown in FIG. 2; the mileage data item unit input by the user is inconsistent with the default data item unit in the system, and the system can automatically convert the data into data with the same attribute and format; the module can be realized through a user interface, and the user interface can also expand the functions of inquiry, validation, pricing, material planning, construction report forms and the like;

a calculation module: the module calculates intersection according to the starting and ending point mileage of the tunnel section to be calculated input by the user and the starting and ending point mileage recorded in the information of the storage module, and obtains the project inventory amount and the material consumption amount of the tunnel section to be calculated. Specifically, the method for obtaining the project inventory and the material consumption of the tunnel section to be obtained by solving the intersection comprises the following steps: calculating intersection of starting and ending point mileage of the tunnel section to be calculated input by the user and starting and ending point mileage recorded in the information of the storage module; if the starting and ending point mileage of the tunnel section to be solved input by the user does not comprise the input starting and ending point mileage, recording the project inventory amount and the material usage amount of the tunnel section to be solved as 0; if the starting and ending point mileage of the tunnel section to be solved input by the user completely comprises the recorded starting and ending point mileage, multiplying the recorded starting and ending point mileage length by the project order clearing amount per linear meter to obtain the project order clearing amount of the tunnel section to be solved, and multiplying the recorded starting and ending point mileage length by the material using amount per linear meter to obtain the material using amount of the tunnel section to be solved; if the starting and ending point mileage part of the tunnel section to be solved input by the user comprises the recorded starting and ending point mileage, the project clear list quantity of the tunnel section to be solved is obtained by multiplying the intersection length of the starting and ending point mileage of the tunnel section to be solved and the recorded starting and ending point mileage by the project clear list quantity per linear meter, and the material using quantity of the tunnel section to be solved is obtained by multiplying the intersection length by the material using quantity per linear meter. And then, multiplying the distribution coefficient of each section of the tunnel with the engineering list amount and the material amount of the tunnel section to be solved respectively to obtain the engineering list amount and the material amount of each section of the tunnel section to be solved.

The application method of the distribution coefficient of each section of the tunnel is that when the system calculates the concrete of each section, the total quantity of the section to be solved of the tunnel is multiplied by the distribution coefficient of each section respectively to obtain the component of each section. Such as: the 20b I-steel of each linear meter of a certain tunnel is 400kg, the upper section distribution system is 0.3, and the 20b I-steel of the upper section of the side tunnel is 400 x 0.3-120 kg. The intersection can be calculated by judging the IF words and then adding or subtracting, or by calculating the intersection through the sentences of max () min (), and the like.

An output module: the module is used for outputting the engineering list clearing amount and the material consumption of each section of the tunnel section to be solved, which are obtained by the calculation module.

Claims

1. A system for calculating the clear single quantity and the material consumption of each section engineering of any section of a tunnel is characterized in that: the system comprises:

a logging module: the module is used for a user to input starting and ending point mileage, project inventory per linear meter, material usage per linear meter and distribution coefficient information of each section of the tunnel;

a storage module: the module is used for storing information input by a user;

2. The system for calculating the clear inventory and the material consumption of each section project of any section of the tunnel according to claim 1, wherein: in the recording module, the distribution coefficient of each section of the tunnel comprises an upper section analysis coefficient, an intermediate section distribution coefficient, a lower section distribution coefficient, an inverted arch excavation distribution coefficient, an inverted arch second lining distribution coefficient, an inverted arch filling distribution coefficient, a second lining distribution coefficient, a leveling layer and other distribution coefficients.

3. The system for calculating the clear inventory and the material consumption of each section project of any section of the tunnel according to claim 2, wherein: the sum of the upper section analysis coefficient, the middle section distribution coefficient, the lower section distribution coefficient, the inverted arch excavation distribution coefficient, the inverted arch second lining distribution coefficient, the inverted arch filling distribution coefficient, the second lining distribution coefficient, the leveling layer and other distribution coefficients is 1.

4. The system for calculating the clear inventory and the material consumption of each section project of any section of the tunnel according to claim 1, wherein: the method for obtaining the project inventory and the material consumption of the tunnel section to be obtained by solving the intersection comprises the following steps:

5. The system for calculating the clear inventory and the material consumption of each section project of any section of the tunnel according to claim 1, wherein: the input module has the functions of inquiring, screening and filtering.