CN112150627A - Method for calculating usage amount of formwork support - Google Patents

Abstract

The invention provides a method for calculating the usage amount of a formwork support, and belongs to the technical field of building engineering. The calculation method comprises the steps of establishing a three-dimensional model of the construction building on a computer, guiding in formwork support inserts, inserting the formwork support inserts into the three-dimensional model of the construction building according to the theoretical design position of a formwork support, cutting the formwork support inserts according to the height of the installation position of the formwork support in the construction building, installing the cut formwork support inserts into the theoretical design position of the formwork support, establishing the three-dimensional model of the construction building with the formwork support, classifying the formwork support inserts according to the height of the formwork support inserts, classifying the formwork support inserts with the same height into one class, calculating the number of the formwork support inserts in each class of formwork support inserts, and exporting the classified types of all the formwork support inserts and the form of the number of the formwork support inserts in each class. The method has the advantage that the usage amount of the formwork support can be accurately calculated, and the method is used for calculating the usage amount of the formwork support.

Description

Method for calculating usage amount of formwork support

[ technical field ] A method for producing a semiconductor device

The invention relates to a method for calculating the usage amount of a formwork support, and belongs to the technical field of constructional engineering.

[ background of the invention ]

At present, in the process of capital construction, formwork supports are needed to support erected formworks, a large number of formwork supports are usually required to be leased due to the large number of the formwork supports, and when the formwork supports are leased, the lease number of the formwork supports is usually obtained by estimating through experience of constructors.

By adopting the method, the approximate usage amount of the formwork support can be estimated, but accurate calculation cannot be realized, so that the rented formwork support is insufficient or excessive, and the construction efficiency is influenced.

[ summary of the invention ]

The invention aims to provide a method for calculating the usage amount of a formwork support, so that the usage amount of the formwork support can be accurately calculated.

In order to solve the technical problem, the method for calculating the usage amount of the formwork support comprises the following steps:

step 1: establishing a three-dimensional model of a construction building on a computer;

step 2: leading in a formwork support plug-in, and inserting the formwork support plug-in on a three-dimensional model of a construction building according to a theoretical design position of a formwork support;

and step 3: cutting the formwork support plug-in according to the height of the mounting position of the formwork support in the construction building;

and 4, step 4: installing the cut formwork support plug-in unit at a theoretical design position of a formwork support, and establishing a three-dimensional model of the construction building with the formwork support;

and 5: classifying according to the heights of the formwork support plug-ins, and classifying the formwork support plug-ins with the same height into one class;

step 6: and calculating the number of the formwork support plug-ins in each type of formwork support plug-ins, and deriving the classified types of all the formwork support plug-ins and a table of the number of the formwork support plug-ins in each type.

The method is adopted, firstly, a three-dimensional model of the construction building is built on a computer, so that the building of the construction building can be simulated by the computer, a formwork support plug-in is led in, the formwork support plug-in is inserted into the three-dimensional model of the construction building according to the theoretical design position of the formwork support, the theoretical design position of the formwork support refers to the position of the formwork support designed by workers in engineering design, so that the computer can simulate the installation of the formwork support, the formwork support plug-in is cut according to the height of the installation position of the formwork support in the construction building, the formwork support can be installed in the construction building for supporting, the cut formwork support plug-in is installed at the theoretical design position of the formwork support, the three-dimensional model of the construction building with the formwork support is built, the three-dimensional model of the construction building with the formwork support can be simulated by the computer, the classification is carried out according to the, the method comprises the steps of classifying the formwork support plug-ins with the same height into one class, calculating the number of the formwork support plug-ins in each class of formwork support plug-ins, and deriving a table of the classified types of all the formwork support plug-ins and the number of the formwork support plug-ins in each class, so that constructors can rent the formwork support through data on the table.

Secondly, in the prior art, the lease number of the formwork support is usually obtained by estimating through experience of constructors, accurate calculation cannot be achieved, the lease formwork support is insufficient or excessive, and construction efficiency is affected.

Based on the structure, the number of the formwork plug-in units in each type of formwork plug-in units is calculated, the number of the formwork plug-in units in different heights can be obtained, the formwork of the accurate number of each type of height can be leased by constructors, the constructors can be installed by the formwork with the proper height during construction, the formwork does not need to be cut to be suitable for different heights, the constructors are convenient to construct, materials cannot be wasted, and the cost can be saved.

Based on the structure, the three-dimensional model of the construction building with the formwork support is built by cutting the formwork support plug-in through the computer, and then the usage amount of the formwork support with different heights is calculated, so that constructors can accurately obtain the usage amount of the formwork support with different heights, and the constructors can more conveniently and accurately obtain the usage amount of the formwork support with different heights.

Preferably, after the step 6 is executed, the step 7 is executed: and listing the installation positions of all the formwork support plug-ins, classifying the installation positions of the formwork support plug-ins according to the construction sequence, and dividing different installation areas.

Preferably, in step 7, a table of the classified types of all the formwork inserts, the total number of the formwork inserts in each class, and the number of the formwork inserts in each class in different installation areas is derived.

Preferably, the table includes a category column for indicating the category of all the formwork inserts, a mounting area column for indicating all the mounting areas, and a total column for indicating the total number of formwork inserts in each category.

Preferably, the category column is located at the top of the table in the transverse direction, the mounting area column is located at the left side of the table in the longitudinal direction, and the total column is located at the bottom of the table in the transverse direction.

Preferably, in step 3, when the formwork support plug-in is inserted into the three-dimensional model of the construction building, the computer cuts the formwork support plug-in according to an overlapping area between the formwork support plug-in and the three-dimensional model of the construction building.

Preferably, when the formwork support plug-in is cut, the cutting is performed from a position overlapping with the construction building three-dimensional model, and one end with the overlapping area is completely cut.

Preferably, in the step 2, the guided formwork support plug-ins include formwork support plug-ins of various models, and the computer selects formwork support plug-ins of different models according to the bearing requirement of the installation positions of the formwork support plug-ins.

Preferably, the computer calculates the number of the formwork plug-ins of each model, and derives the models of all the formwork plug-ins and a table of the number of the formwork plug-ins of each model.

Preferably, the computer selects the formwork inserts of different models according to the bearing requirement of the mounting positions of the formwork inserts and the height of the mounting positions.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The invention is described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a schematic diagram of a method for calculating the usage amount of the formwork support of the present invention.

[ detailed description ] embodiments

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

In the following description, the terms such as "inner", "outer", "upper", "lower", "left", "right", etc., which indicate orientations or positional relationships, are used to indicate orientations or positional relationships based on the drawings, and are only used for convenience in describing embodiments and for simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, the method for calculating the usage amount of the formwork support in this embodiment includes:

step 1: establishing a three-dimensional model of a construction building on a computer;

step 2: leading in a formwork support plug-in, and inserting the formwork support plug-in on a three-dimensional model of a construction building according to a theoretical design position of a formwork support;

and step 3: cutting the formwork support plug-in according to the height of the mounting position of the formwork support in the construction building;

and 4, step 4: installing the cut formwork support plug-in unit at a theoretical design position of a formwork support, and establishing a three-dimensional model of the construction building with the formwork support;

and 5: classifying according to the heights of the formwork support plug-ins, and classifying the formwork support plug-ins with the same height into one class;

step 6: and calculating the number of the formwork support plug-ins in each type of formwork support plug-ins, and deriving the classified types of all the formwork support plug-ins and a table of the number of the formwork support plug-ins in each type.

The method is adopted, firstly, a three-dimensional model of the construction building is built on a computer, so that the building of the construction building can be simulated by the computer, a formwork support plug-in is led in, the formwork support plug-in is inserted into the three-dimensional model of the construction building according to the theoretical design position of the formwork support, the theoretical design position of the formwork support refers to the position of the formwork support designed by workers in engineering design, so that the computer can simulate the installation of the formwork support, the formwork support plug-in is cut according to the height of the installation position of the formwork support in the construction building, the formwork support can be installed in the construction building for supporting, the cut formwork support plug-in is installed at the theoretical design position of the formwork support, the three-dimensional model of the construction building with the formwork support is built, the three-dimensional model of the construction building with the formwork support can be simulated by the computer, the classification is carried out according to the, the method comprises the steps of classifying the formwork support plug-ins with the same height into one class, calculating the number of the formwork support plug-ins in each class of formwork support plug-ins, and deriving a table of the classified types of all the formwork support plug-ins and the number of the formwork support plug-ins in each class, so that constructors can rent the formwork support through data on the table.

Secondly, in the prior art, the lease number of the formwork support is usually obtained by estimating through experience of constructors, accurate calculation cannot be achieved, the lease formwork support is insufficient or excessive, and construction efficiency is affected.

Based on the structure, the number of the formwork plug-in units in each type of formwork plug-in units is calculated, the number of the formwork plug-in units in different heights can be obtained, the formwork of the accurate number of each type of height can be leased by constructors, the constructors can be installed by the formwork with the proper height during construction, the formwork does not need to be cut to be suitable for different heights, the constructors are convenient to construct, materials cannot be wasted, and the cost can be saved.

Based on the structure, the three-dimensional model of the construction building with the formwork support is built by cutting the formwork support plug-in through the computer, and then the usage amount of the formwork support with different heights is calculated, so that constructors can accurately obtain the usage amount of the formwork support with different heights, and the constructors can more conveniently and accurately obtain the usage amount of the formwork support with different heights.

In order to further classify the formwork support, in this embodiment, preferably, after the step 6 is executed, the step 7 is executed: listing the installation positions of all the formwork support plug-ins, classifying the installation positions of the formwork support plug-ins according to a construction sequence, and dividing different installation areas, wherein firstly, the formwork support frame with the front construction progress can be leased for a plurality of times due to the large number of leases, so that the formwork support frame can be conveniently used and transported, the formwork support frame with the front construction progress is slower in transportation and delays the construction progress when the one-time transportation is prevented, and secondly, the formwork support frame is further classified, and the problem that errors occur when constructors record due to the large number of the formwork support frames of one type is prevented.

In order to make the renting more convenient for constructors, in step 7, preferably, a table of the types of all the classified formwork support plug-ins, the total number of the formwork support plug-ins in each class and the number of the formwork support plug-ins in each class in different installation areas is derived, and the types of all the formwork support plugs, the total number of the formwork support plugs in each class and the number of the formwork support plugs in each class in different installation areas can be clearly obtained through the table, so that the renting by constructors is more convenient.

In order to optimize the structure of the form, the form preferably includes a category column for indicating the categories of all the formwork support inserts, an installation area column for indicating all the installation areas, and a total column for indicating the total number of the formwork support inserts in each category, and the structure of the form is optimized, so that the construction personnel can rent according to the form more clearly, and the lease of the formwork support is facilitated.

In order to further optimize the positions of the various parts in the form, the embodiment preferably includes that the category column is located at the top of the form in the transverse direction, the installation area column is located at the left side of the form in the longitudinal direction, and the total column is located at the bottom of the form in the transverse direction.

In order to enable the computer to cut the formwork support plug-in, in step 3, preferably, the computer cuts the formwork support plug-in according to an overlapping area between the formwork support plug-in and the three-dimensional model of the construction building when the formwork support plug-in is inserted into the three-dimensional model of the construction building, and the computer cuts the formwork support plug-in according to an algorithm of the area overlapping, so that the computer can cut the formwork support plug-in, and thus, a worker can more conveniently and quickly establish the three-dimensional model of the construction building with the formwork support.

In order to optimize the cutting method, in this embodiment, it is preferable that when the formwork support plug-in is cut, the cutting is performed from a position overlapping with the three-dimensional model of the construction building, and the end with the overlapping area is completely cut off.

In order to further classify the formwork support, in step 2, the imported formwork support plug-ins include formwork support plug-ins of various models, the computer selects the formwork support plug-ins of different models according to the bearing requirements of the installation positions of the formwork support plug-ins, and the formwork support itself has various models, so that the classification can be further classified according to the models, the use positions of the classified formwork support are more accurate, and the construction personnel can conveniently rent the formwork.

In order to make the renting more convenient for constructors, the computer preferably calculates the number of the formwork support plug-ins of each model, and derives the models of all the formwork support plug-ins and the table of the number of the formwork support plug-ins of each model, so that the constructors can clearly observe the using number of the formwork support through the table, and the renting by the constructors is more convenient.

In order to make the selection of the formwork support more accurate, the embodiment preferably selects the formwork support plug-ins of different models according to the bearing requirements of the installation positions and the heights of the installation positions of the formwork support plug-ins by the computer, so that the selection of the formwork support can be more accurate, the selection can be simultaneously carried out through two conditions, the selection can be simultaneously carried out according to the heights and the models during classification, the formwork support can be further classified, and the renting by constructors is more convenient.

While the invention has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the invention is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the invention as set forth in the following claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. A method for calculating the usage amount of a formwork support frame is characterized by comprising the following steps:

step 1: establishing a three-dimensional model of a construction building on a computer;

step 2: leading in a formwork support plug-in, and inserting the formwork support plug-in on a three-dimensional model of a construction building according to a theoretical design position of a formwork support;

and step 3: cutting the formwork support plug-in according to the height of the mounting position of the formwork support in the construction building;

and 4, step 4: installing the cut formwork support plug-in unit at a theoretical design position of a formwork support, and establishing a three-dimensional model of the construction building with the formwork support;

and 5: classifying according to the heights of the formwork support plug-ins, and classifying the formwork support plug-ins with the same height into one class;

step 6: and calculating the number of the formwork support plug-ins in each type of formwork support plug-ins, and deriving the classified types of all the formwork support plug-ins and a table of the number of the formwork support plug-ins in each type.

2. The method for calculating the usage amount of the formwork support frame according to claim 1, wherein: after the step 6 is executed, executing a step 7: and listing the installation positions of all the formwork support plug-ins, classifying the installation positions of the formwork support plug-ins according to the construction sequence, and dividing different installation areas.

3. The method for calculating the usage amount of the formwork support frame according to claim 2, wherein: in the step 7, a table of the types of all the classified formwork support plug-ins, the total number of the formwork support plug-ins in each class and the number of the formwork support plug-ins in each class in different installation areas is derived.

4. A method for calculating the usage amount of a formwork holder according to claim 3, wherein: the table includes a category column for representing all formwork insert categories, a field for representing all installation areas, and a total column for representing the total number of formwork inserts in each category.

5. The method for calculating the usage amount of the formwork support frame according to claim 4, wherein: the category column is located horizontally at the top of the table, the mounting area column is located vertically at the left side of the table, and the total column is located horizontally at the bottom of the table.

6. The method for calculating the usage amount of the formwork support frame according to claim 1, wherein: and 3, when the formwork support plug-in is inserted into the three-dimensional model of the construction building, the computer cuts the formwork support plug-in according to the overlapping area between the formwork support plug-in and the three-dimensional model of the construction building.

7. The method for calculating the usage amount of the formwork support frame according to claim 6, wherein: when the formwork support plug-in is cut, cutting is carried out from the position which is overlapped with the three-dimensional model of the construction building, and one end with the overlapped area is completely cut.

8. The method for calculating the usage amount of the formwork support frame according to claim 1, wherein: in the step 2, the guided-in formwork support plug-ins comprise various types of formwork support plug-ins, and the computer selects different types of formwork support plug-ins according to the bearing requirements of the installation positions of the formwork support plug-ins.

9. The method for calculating the usage amount of the formwork support frame according to claim 8, wherein: and the computer calculates the number of the formwork support plug-ins of each model, and derives the models of all the formwork support plug-ins and the table of the number of the formwork support plug-ins of each model.

10. The method for calculating the usage amount of the formwork support frame according to claim 8, wherein: and the computer selects the formwork support plug-ins of different models according to the bearing requirements of the mounting positions of the formwork support plug-ins and the heights of the mounting positions.

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