CN111652640A - Civil engineering auxiliary pricing method and system for electric power project and storage medium thereof - Google Patents

Abstract

The invention relates to a civil engineering auxiliary pricing method, a system and a storage medium thereof of an electric power project, wherein the method comprises the steps of selecting a target area; acquiring a reference total offer, a plurality of reference quota items and a reference unit price of a pricing item in a first area; acquiring and determining a target unit price of a target area; calculating a single increment coefficient of the target unit price; calculating a weighted average of the plurality of single increment coefficients as a target reference coefficient; acquiring a plurality of target drawings in a pricing project; acquiring the type of the selected target drawing; searching a corresponding insertion template according to the type of the selected target drawing; filling the product value of the target reference coefficient and the reference total quotation into an insertion template; and inserting the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing and displaying the insertion template on the bottom layer of the selected target drawing, wherein the area of the insertion template is larger than that of the structure information in the target drawing. The method has the effect that the preliminary budget can be obtained by reducing steps of consulting quota information and time and resources.

Description

Civil engineering auxiliary pricing method and system for electric power project and storage medium thereof

Technical Field

The invention relates to the technical field of cost calculation, in particular to a civil engineering auxiliary pricing method and system for an electric power project and a storage medium thereof.

Background

The project cost refers to the construction cost expected or actually paid out during the construction period of the constituent project. The work process of forecasting, planning, controlling, accounting, analyzing and evaluating the engineering cost by comprehensively using knowledge and skills in the aspects of management, economics, engineering technology and the like is called engineering cost management. The prediction or determination of the construction cost and its constituent contents according to procedures, methods and bases prescribed by laws, regulations and standards, etc., is called project pricing, and the project pricing bases include project measurement pricing standards related to pricing contents, pricing methods and price standards, project pricing quotations and project cost information, etc.

The basic process of the current engineering cost is that the engineering quantity of different parts on a drawing is measured according to a drawing, then the building material price of different parts is inquired from a quota book of different areas, and finally the cost is calculated according to the corresponding engineering quantity and the building material price to obtain the total amount. When the same building is built in different areas, the pricing needs to be carried out according to local rating books because the contents of the rating books in different areas have slight differences, such as manual differences and the like.

In the existing engineering cost project, due to the fact that the structure on the drawing is complicated, the number of parts is large, when the same building is built in different areas, the reference quota book needs to be replaced, in the initial budget of the building project, the price of each part on the quota book does not need to be detailed, the reference quota book can be accepted in the budget in the fluctuation interval, the budget is used for forming the initial cost for building the building, the construction fund is arranged conveniently, when the local quota book is inquired according to the types of building materials of different parts, the drawing needs to be calculated repeatedly, and a large amount of repeated operation wastes a large amount of operation time and resources.

Disclosure of Invention

The invention aims to provide a civil engineering auxiliary pricing method for an electric power project, which has the characteristics of reducing steps of looking up quota information and obtaining preliminary budget by time and resources.

The above object of the present invention is achieved by the following technical solutions:

a civil engineering auxiliary pricing method for an electric power project comprises the following steps:

selecting a target area;

acquiring a reference total quotation of a pricing item in a first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one to one;

acquiring a plurality of target unit prices of the target area relative to the reference quota item;

judging and determining a target unit price with deviation within a set deviation range in the plurality of target unit prices according to a preset standard pricing;

calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, wherein the number of the single increment coefficients is the same as that of the target unit prices;

calculating a weighted average value of the single increment coefficients as a target reference coefficient, wherein a weighted value is distributed according to a ratio between a deviation value and a deviation range of each target unit price, and the weighted value and the corresponding ratio are in a positive square relation;

acquiring a plurality of target drawings in a pricing project, wherein the target drawings contain structure information, and the structure information comprises parts and part types in the drawings;

acquiring the type of the selected target drawing;

searching an insertion template corresponding to the type of the selected target drawing according to the type of the selected target drawing;

filling the product value of the target reference coefficient and the reference total price into the insertion template;

and the number of the first and second groups,

and inserting the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing and displaying the insertion template on the bottom layer of the selected target drawing, wherein the area of the insertion template is larger than that of the structural information in the target drawing.

By adopting the technical scheme, a plurality of reference quota items are obtained as an analysis basis, a target unit price with practical significance is screened out by using preset standard pricing on the analysis basis, then a weighted value is distributed according to the ratio between the deviation value and the deviation range of the target unit price, the target reference coefficient is calculated by using the weighted value, the accuracy of the target reference coefficient is increased, the accuracy of the target reference coefficient can be better improved if the ratio between the deviation value and the deviation range of the weighted value and the corresponding target unit price is in a positive square relation, then an insertion template matched with the selected target drawing is selected, the product value of the target reference coefficient and the reference total quotation is filled into the insertion template, and the insertion template is placed at the bottom layer of the selected target drawing part, so that a costist can calculate the pricing process, the total quotations of the selected target drawings in different areas can be seen, and the preliminary budget can be obtained by reducing steps of looking up quota information and time and resources.

The present invention in a preferred example may be further configured to: further comprising:

updating the selected target drawing; and the number of the first and second groups,

and if the selected target drawing is changed, updating the inserting template, wherein the area of the inserting template in the target drawing is in positive correlation with the value of the target reference coefficient.

By adopting the technical scheme, the inserting template can be displayed in the selected target drawing part along with the difference of the target area in a follow-up manner, and meanwhile, the total quotation range of the selected target drawing in the target area can be approximately reminded by a constructor through the positive correlation between the area of the inserting template and the target reference coefficient, so that the constructor can perform calculation and analysis more carefully.

The present invention in a preferred example may be further configured to: further comprising:

searching the reference quota item from the selected target drawing, and highlighting the structural information corresponding to the reference quota item;

after the structure information is selected, a temporary image block is newly built beside the structure information, and the content in the temporary image block is the reference unit price and the target unit price corresponding to the reference quota item;

displaying a temporary graphic block on the top layer of the selected part, wherein the area of the temporary graphic block is smaller than or equal to the area of the structural information; and the number of the first and second groups,

and removing the temporary drawing block after the selected target drawing is replaced.

By adopting the technical scheme, the reference unit price and the target unit price corresponding to the reference quota item are arranged on the top layer beside the structural information in the form of the temporary graphic block, so that normal measurement is not influenced, and the display of the reference unit price and the target unit price is not influenced.

The present invention in a preferred example may be further configured to: further comprising:

and after the selected structure information is updated, regenerating the temporary image block, wherein the area of the regenerated temporary image block is smaller than that of the selected structure information, and the area of the regenerated temporary image block is in positive correlation with the value of the reference unit price.

By adopting the technical scheme, the temporary block can change along with the change of the selected structure information, and meanwhile, the unit price range of the structure information selected by a constructor can be approximately reminded through the positive correlation between the area of the temporary block and the reference unit price, so that the constructor can more finely calculate the valuation.

The present invention in a preferred example may be further configured to: further comprising:

associating the same corresponding insert template and temporary image block of the selected target drawing;

the positions of the inserting templates and the temporary image blocks corresponding to the same selected target drawing are relatively and fixedly arranged; and the number of the first and second groups,

the distance between the structure information and the temporary tiles is limited within a set distance range.

By adopting the technical scheme, the temporary image blocks can be moved, the distance between the inserting template and the temporary image blocks is not more than the set distance range, if the moving distance of the temporary image blocks is overlarge, the inserting template can be moved along with the temporary image blocks, the influence on the pricing calculation of a constructor due to the overlarge distance between the inserting template and the temporary image blocks is avoided, and therefore the measurement is further not influenced, and the calculation of the total price is also not influenced.

The invention also aims to provide a civil engineering auxiliary pricing system for the electric power project, which has the characteristics of reducing steps of looking up quota information and obtaining preliminary budget by time and resources.

The second aim of the invention is realized by the following technical scheme:

a civil engineering auxiliary pricing system for electric power projects comprises the following modules:

a selected area module for selecting a target area;

the pricing obtaining module is used for obtaining a reference total quotation of a pricing item in a first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one by one;

an acquisition target module for acquiring a plurality of target unit prices of the target area with respect to the reference quota item;

the judgment and determination module is used for judging and determining a target unit price of which the deviation is within a set deviation range in the plurality of target unit prices according to a preset standard pricing;

the calculation increment module is used for calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, and the number of the single increment coefficients is the same as that of the target unit prices;

the system comprises an acquisition structure module, a display module and a display module, wherein the acquisition structure module is used for acquiring a plurality of target drawings in a pricing project, the target drawings contain structure information, and the structure information comprises parts and part types in the drawings;

the acquisition type module is used for acquiring the type of the selected target drawing;

the template searching module is used for searching an insertion template corresponding to the type of the selected target drawing according to the type of the selected target drawing;

the filling template module is used for filling a product value of the target reference coefficient and the reference total quotation into the insertion template; and the number of the first and second groups,

and the conversion display module is used for inserting the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing and displaying the insertion template on the bottom layer of the selected target drawing, and the area of the insertion template is larger than that of the structural information in the target drawing.

By adopting the technical scheme, the acquiring pricing module acquires a plurality of reference quota items as an analysis basis, the calculating increment module screens out target unit prices with practical significance by using preset standard pricing on the analysis basis, then, weighted values are distributed according to the ratio between the deviation value and the deviation range of the target unit prices, the weighted values are used for enabling the target unit prices to calculate target reference coefficients, the accuracy of the target reference coefficients is improved, the ratio between the weighted values and the deviation value and the deviation range of the corresponding target unit prices is in a positive square relation, the accuracy of the target reference coefficients can be better improved, then, an insertion template matched with the selected target drawing is selected by the searching template module, the filling template module fills the product value of the target reference coefficients and the reference total quotation into the insertion template, and the conversion display module places the insertion template on the bottom layer of the selected target drawing part, therefore, in the pricing process, a costist can see the total price of the selected target drawings in different areas, and the preliminary budget can be obtained by reducing the steps of looking up quota information and reducing the time and resources.

The present invention in a preferred example may be further configured to: further comprising:

the drawing updating module is used for updating the selected target drawing; and the number of the first and second groups,

and the template updating module is used for updating the inserting template if the selected target drawing is changed, wherein the area of the inserting template in the target drawing is in positive correlation with the value of the target reference coefficient.

By adopting the technical scheme, the updating template module enables the inserting template to be displayed in the selected target drawing part along with the difference of the target area in a follow-up manner, and meanwhile, the total quotation range of the selected target drawing in the target area can be approximately reminded by a constructor through the positive correlation between the area of the inserting template and the target reference coefficient, so that the constructor can perform calculation and analysis more carefully.

The present invention in a preferred example may be further configured to: further comprising:

the searching highlight module is used for searching the reference quota item from the selected target drawing and highlighting the structural information corresponding to the reference quota item;

a newly-built tile block module, configured to newly build a temporary tile block beside the structure information after the structure information is selected, where content in the temporary tile block is a reference unit price and a target unit price corresponding to the reference quota item;

the display tile block module is used for displaying the temporary tile block on the top layer of the selected part, and the area of the temporary tile block is smaller than or equal to that of the structural information; and the number of the first and second groups,

and the block clearing module is used for clearing the temporary block after the selected target drawing is replaced.

By adopting the technical scheme, the reference unit price and the target unit price corresponding to the reference quota item are arranged on the top layer beside the structural information in the form of the temporary graphic block, so that normal measurement is not influenced, and the display of the reference unit price and the target unit price is not influenced.

The third objective of the present invention is to provide a computer-readable storage medium having the features of reducing the steps of referring to quota information and obtaining a preliminary budget in terms of time and resources.

The third object of the invention is realized by the following technical scheme:

a computer readable storage medium storing a computer program that can be loaded by a processor and that can perform a civil engineering auxiliary pricing method for any of the above-mentioned items of electric power.

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

1. acquiring a plurality of reference quota items, screening out actual target unit prices, distributing weighted values according to the ratio between the deviation value and the deviation range of the target unit prices, calculating a target reference coefficient by using the weighted values, and preliminarily calculating the total quotation of a new area, wherein the ratio between the weighted values and the deviation value and the deviation range of the corresponding target unit prices is in a positive square relationship, so that the accuracy of the target reference coefficient can be better improved, and the steps of consulting quota information and the preliminary budget can be obtained by reducing time and resources;

2. then selecting an insertion template matched with the selected target drawing, filling the insertion template with a product value of a target reference coefficient and a reference total quotation, placing the insertion template on the bottom layer of the selected target drawing part, enabling the insertion template to be displayed in the selected target drawing part along with the difference of target areas in a follow-up manner, and meanwhile, approximately reminding a constructor of the total quotation range of the selected target drawing in the target area through positive correlation of the area of the insertion template and the target reference coefficient, and enabling the constructor to perform calculation and analysis more carefully;

3. and setting the reference unit price and the target unit price corresponding to the reference quota item on the top layer beside the structure information in the form of temporary image blocks, and displaying the temporary image blocks and the insertion template in a matched manner, namely not influencing normal measurement and not influencing the display of the reference unit price and the target unit price.

Drawings

Fig. 1 is a schematic flow chart of a method according to a first embodiment of the present invention.

Fig. 2 is a block diagram of a system configuration according to a second embodiment of the present invention.

Reference numerals: 1. a selected area module; 2. acquiring a pricing module; 3. acquiring a target module; 4. a judgment determination module; 5. a calculate increment module; 6. acquiring a structural module; 7. acquiring a type module; 8. a search template module; 9. filling the template module; 10. a conversion display module; 11. updating a drawing module; 12. updating the template module; 13. searching a highlight module; 14. building a new block module; 15. a display tile module; 16. and clearing the image block module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The first embodiment is as follows:

the embodiment of the invention provides a civil engineering auxiliary pricing method for an electric power project, which comprises the following steps as shown in figure 1:

a target area is selected. If the total cost of a building project in Hangzhou is A, a roughly estimated total cost B needs to be given before the same building project is constructed in Shanghai, Hangzhou is the first area, and Shanghai is the target area.

And acquiring a reference total quotation of the pricing item in the first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one to one. The reference total price of the first area is A, and the reference quota item can be manual work, water and electricity renting, material loss and the like.

A plurality of target unit prices for the target area with respect to the reference rating item are acquired.

Judging and determining target unit prices with deviation within a set deviation range in the plurality of target unit prices according to preset standard pricing;

and calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, wherein the number of the single increment coefficients is the same as that of the target unit prices. The preset standard pricing is the national average of the reference quota item, and if the preset standard pricing is lower than 2/3 of the national average, the preset standard pricing represents that the target unit price deviation is too large and unreasonable and needs to be determined again.

And calculating a weighted average value of the plurality of single increment coefficients as a target reference coefficient, wherein a weighted value is distributed according to a ratio between the deviation value and the deviation range of each target unit price, and the weighted value and the corresponding ratio are in a positive square relation.

The method comprises the steps of obtaining structural information of a plurality of target drawings in a pricing project, wherein the target drawings contain structural information, and the structural information comprises parts and part types in the drawings. The type of the target drawing can be but is not limited to a CAD drawing in DWG or DWF format, an engineering drawing is arranged in the CAD drawing, different layers are arranged in the engineering drawing, and different layers contain components such as lines, blocks and the like in different types. Such as different materials, different sizes or different locations of wall panels, floor slabs, parapet walls, load-bearing columns, etc., different sizes, different areas or different standard structural lines. Different features may be on different layers.

And acquiring the type of the selected target drawing. The type can be DWG or DWG, and can also be in CAXA drawing format.

And searching an insertion template corresponding to the type according to the type of the selected target drawing. The unit prices are prices in the quota book and are stored in an off-line or on-line database in advance, and the name of each unit price in the database is the name of a reference quota item or the name of a part corresponding to the unit price. The names of the reference rating items or the names of the components corresponding to different unit prices can be the same or different, and the unit prices corresponding to different reference rating items or different components can be the same or different.

The product value of the target reference coefficient and the reference total bid amount is filled into the insertion template.

And inserting the inserting template into the bottom layer of the selected target drawing according to the inserting steps specified by the target drawing and displaying the inserting template on the bottom layer of the selected target drawing, wherein the area of the inserting template is larger than that of the structure information in the target drawing. Updating the selected target drawing; and the number of the first and second groups,

and if the selected target drawing is changed, updating the inserting template, wherein the area of the inserting template in the target drawing is positively correlated with the value of the target reference coefficient.

And searching the reference quota item from the selected target drawing, and highlighting the structural information corresponding to the reference quota item.

And after the structure information is selected, a temporary picture block is newly built beside the structure information, and the content in the temporary picture block is the reference unit price and the target unit price corresponding to the reference quota item.

Displaying the temporary image blocks on the top layer of the selected part, wherein the area of the temporary image blocks is smaller than or equal to that of the structural information; and the number of the first and second groups,

and removing the temporary drawing blocks after replacing the selected target drawing.

And after the selected structure information is updated, regenerating the temporary image block, wherein the area of the regenerated temporary image block is smaller than that of the selected structure information, and the area of the regenerated temporary image block is in positive correlation with the value of the reference unit price. For example, if the part a structural line on the CAD drawing is selected, the temporary block a is automatically displayed beside the part a structural line, and the part a structural line is displayed at the lower layer of the temporary block a, wherein the larger the reference unit price, the larger the area of the temporary block a, the smaller the reference unit price, and the smaller the area of the temporary block a.

And associating the inserting template and the temporary image block corresponding to the same selected target drawing.

And the position between the inserting template corresponding to the same selected target drawing and the temporary drawing block is relatively and fixedly arranged. And the number of the first and second groups,

the distance between the structure information and the temporary tiles is limited within a set distance range. And the transparency of the temporary tile block is lower than or equal to that of the selected structure information.

The method comprises the steps of obtaining a plurality of reference quota items as an analysis basis, screening out target unit prices with practical significance by using preset standard pricing on the analysis basis, distributing weighted values according to the ratio between the deviation value and the deviation range of the target unit prices, calculating target reference coefficients by using the weighted values to increase the accuracy of the target reference coefficients, and better improving the accuracy of the target reference coefficients if the ratio between the deviation value and the deviation range of the weighted values and the corresponding target unit prices is in a positive square relation. And selecting an insertion template matched with the selected target drawing, and filling the product value of the target reference coefficient and the reference total quotation into the insertion template.

The inserting template is placed on the bottom layer of the selected target drawing part, the inserting template and the temporary image block can be moved, the distance between the inserting template and the temporary image block is not more than a set distance range, if the moving distance of the temporary image block is too large, the inserting template can be moved along with the temporary image block, the situation that the distance between the inserting template and the temporary image block is too far to influence the pricing calculation of a cost builder is avoided, the measurement is further not influenced, and the calculation of the total price is not influenced.

The inserting template can be displayed in the selected target drawing part along with the difference of the target area in a follow-up mode, meanwhile, the temporary block can also be changed along with the change of the selected structure information, the unit price range of the structure information selected by a construction cost worker and the total price range of the selected target drawing in the target area are approximately reminded through the positive correlation between the area of the inserting template and the target reference coefficient and the positive correlation between the area of the temporary block and the reference unit price, and the construction cost worker can perform calculation and analysis more carefully. Therefore, in the pricing process, a costist can see the total price of the selected target drawings in different areas, and the preliminary budget can be obtained by reducing the steps of looking up quota information and reducing the time and resources.

Example two:

a civil engineering auxiliary pricing system for electric power projects, as shown in fig. 2, comprises the following modules:

a selected area module 1 for selecting a target area;

the pricing obtaining module 2 is used for obtaining a reference total quotation of the pricing item in the first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one by one;

an acquisition target module 3 for acquiring a plurality of target unit prices of the target area with respect to the reference quota item;

the judgment and determination module 4 is used for judging and determining a target unit price with the deviation within a set deviation range in the plurality of target unit prices according to a preset standard pricing;

the increment calculating module 5 is used for calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, and the number of the single increment coefficients is the same as that of the target unit prices;

the acquisition structure module 6 is used for acquiring a plurality of target drawings in the pricing project, wherein the target drawings contain structure information, and the structure information comprises parts and part types in the drawings;

the type obtaining module 7 is used for obtaining the type of the selected target drawing;

the template searching module 8 is used for searching an insertion template corresponding to the type of the selected target drawing according to the type of the selected target drawing;

a filling template module 9, configured to fill a product value of the target reference coefficient and the reference total price into the insertion template; and the number of the first and second groups,

and the conversion display module 10 is used for inserting the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing and displaying the insertion template on the bottom layer of the selected target drawing, wherein the area of the insertion template is larger than that of the structural information in the target drawing.

The drawing updating module 11 is used for updating the selected target drawing; and the number of the first and second groups,

and the template updating module 12 is configured to update the insertion template if the selected target drawing is changed, where the area of the insertion template in the target drawing is in positive correlation with the value of the target reference coefficient.

The searching highlight module 13 is used for searching the reference quota item from the selected target drawing, and highlighting the structural information corresponding to the reference quota item;

a newly-built tile block module 14, configured to select the structure information and then newly build a temporary tile block beside the structure information, where content in the temporary tile block is a reference unit price and a target unit price corresponding to the reference quota item;

a display tile block module 15, configured to display a temporary tile block on a top layer of the selected component, where an area of the temporary tile block is smaller than or equal to an area of the structural information; and the number of the first and second groups,

and the block clearing module 16 is used for clearing the temporary blocks after the selected target drawing is replaced.

Example three:

a civil engineering auxiliary pricing device for electric power projects comprises a memory and a processor, wherein the memory stores a computer program which can be loaded by the processor and executes the civil engineering auxiliary pricing method for the electric power projects in the first embodiment.

Example four:

a computer-readable storage medium storing a computer program which can be loaded by a processor and executes the civil engineering auxiliary pricing method for the electric power item of the first embodiment. The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without any inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims (9)

1. A civil engineering auxiliary pricing method for an electric power project is characterized by comprising the following steps:

selecting a target area;

acquiring a reference total quotation of a pricing item in a first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one to one;

acquiring a plurality of target unit prices of the target area relative to the reference quota item;

judging and determining a target unit price with deviation within a set deviation range in the plurality of target unit prices according to a preset standard pricing;

calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, wherein the number of the single increment coefficients is the same as that of the target unit prices;

calculating a weighted average value of the single increment coefficients as a target reference coefficient, wherein a weighted value is distributed according to a ratio between a deviation value and a deviation range of each target unit price, and the weighted value and the corresponding ratio are in a positive square relation;

acquiring a plurality of target drawings in a pricing project, wherein the target drawings contain structure information, and the structure information comprises parts and part types in the drawings;

acquiring the type of the selected target drawing;

searching an insertion template corresponding to the type of the selected target drawing according to the type of the selected target drawing;

filling the product value of the target reference coefficient and the reference total price into the insertion template;

and the number of the first and second groups,

and inserting the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing and displaying the insertion template on the bottom layer of the selected target drawing, wherein the area of the insertion template is larger than that of the structural information in the target drawing.

2. The method of claim 1, further comprising:

updating the selected target drawing; and the number of the first and second groups,

and if the selected target drawing is changed, updating the inserting template, wherein the area of the inserting template in the target drawing is in positive correlation with the value of the target reference coefficient.

3. The method of claim 2, further comprising:

searching the reference quota item from the selected target drawing, and highlighting the structural information corresponding to the reference quota item;

after the structure information is selected, a temporary image block is newly built beside the structure information, and the content in the temporary image block is the reference unit price and the target unit price corresponding to the reference quota item;

displaying a temporary graphic block on the top layer of the selected part, wherein the area of the temporary graphic block is smaller than or equal to the area of the structural information; and the number of the first and second groups,

and removing the temporary drawing block after the selected target drawing is replaced.

4. The method of claim 3, further comprising:

and after the selected structure information is updated, regenerating the temporary image block, wherein the area of the regenerated temporary image block is smaller than that of the selected structure information, and the area of the regenerated temporary image block is in positive correlation with the value of the reference unit price.

5. The method of claim 4, further comprising:

associating the same corresponding insert template and temporary image block of the selected target drawing;

the positions of the inserting templates and the temporary image blocks corresponding to the same selected target drawing are relatively and fixedly arranged; and the number of the first and second groups,

the distance between the structure information and the temporary tiles is limited within a set distance range.

6. A civil engineering auxiliary pricing system for electric power projects is characterized by comprising the following modules:

a selected area module (1) for selecting a target area;

the pricing obtaining module (2) is used for obtaining a reference total quotation of a pricing item in a first area, a plurality of reference quota items selected in advance from the reference total quotation and reference unit prices corresponding to the reference quota items one to one;

an acquisition target module (3) for acquiring a plurality of target unit prices of a target area with respect to the reference quota item;

the judgment and determination module (4) is used for judging and determining a target unit price of which the deviation is within a set deviation range in a plurality of target unit prices according to a preset standard pricing;

the increment calculating module (5) is used for calculating single increment coefficients of the target unit prices relative to the reference unit prices in a one-to-one correspondence mode, and the number of the single increment coefficients is the same as that of the target unit prices;

the system comprises an acquisition structure module (6) and a display module, wherein the acquisition structure module is used for acquiring a plurality of target drawings in a pricing project, the target drawings contain structure information, and the structure information comprises parts and part types in the drawings;

the type obtaining module (7) is used for obtaining the type of the selected target drawing;

the template searching module (8) is used for searching an insertion template corresponding to the type of the selected target drawing according to the type of the selected target drawing;

a filling template module (9) for filling the insertion template with a product value of a target reference coefficient and a reference total price; and the number of the first and second groups,

and the conversion display module (10) is used for inserting and displaying the insertion template into the bottom layer of the selected target drawing according to the insertion steps specified by the target drawing, and the area of the insertion template is larger than that of the structural information in the target drawing.

7. The system of claim 6, further comprising:

the drawing updating module (11) is used for updating the selected target drawing; and the number of the first and second groups,

and the template updating module (12) is used for updating the inserting template if the selected target drawing is changed, wherein the area of the inserting template in the target drawing is in positive correlation with the value of the target reference coefficient.

8. The system of claim 6, further comprising:

the searching highlight module (13) is used for searching the reference quota item from the selected target drawing and highlighting the structure information corresponding to the reference quota item;

a new tile block module (14) for selecting the structure information and then newly creating a temporary tile block beside the structure information, wherein the content in the temporary tile block is the reference unit price and the target unit price corresponding to the reference quota item;

a display tile block module (15) for displaying the temporary tile block on the top layer of the selected part, wherein the area of the temporary tile block is smaller than or equal to the area of the structural information; and the number of the first and second groups,

and the block clearing module (16) is used for clearing the temporary block after the selected target drawing is replaced.

9. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 5.

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