As-built survey v2.6.4

Executive schemes

Cost: 70 USD/year
*

Price for legal entities:
8000 ₽

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Verticality of structures

Geo_dev_vertical

The application creates arrows in the drawing with signatures of deviations from the project.

As the actual position, you can use:

As a project position, you can use:

-< Tolerances >-

The application controls the deviation from the project on 3 parameters:

-< Color >-

You can select colors to display the corresponding values.

- < Sign > -

You can sign above the arrow one of:

You can sign below the arrow one of:

The value of the prefixes in the box can also be set, but:

-< Layer >-

You can assign a layer from existing ones in the drawing or create a new one for created objects.

-< Text >-

You can choose the text style for the signature of deviations.

All blocks are created with the height of attributes equal to 1.  When inserted into the drawing, they are given the appropriate scale, so that the height of the attribute corresponds to the annotation you entered in the dialog at the current annotation scale.

In this case, the blocks are annotative and their size will change when you change the annotation scale.

- < Coefficient > -

It is for converting the measured values from the drawing units to the ones you need.

Geo_dev_vertical_sel

Since the application creates a large number of different blocks, it is convenient to use this command for their mass selection.

You can specify the block pattern upon the first request. The second request is selecting of the required area in the drawing.

Geo_dev_vertical_sel_bad

The application is similar to the previous one. There is only one difference that in this case only blocks, that contain deviation values large, than the allowed values, will be selected.

Geo_dev_vertical_move_block

The block is reversed relative to the insertion point at short distances by the application. The block is moved and the callout from the starting point of the insert is built at long distances by the application.

Dimensions

Geo_dev_dist_kons_to_point

The application creates a dimension from the point along the perpendicular to the design. All objects are created in accordance with the current settings layer/color/style/...

As the actual position, you can use:

As a project, you can use:

Geo_dev_dist_ax-co-pt

The application creates dimensions that contain 2 values: the first one is project value (from axis to construction) and the second one is actual value (from axis to point).

As the actual position, you can use:

As a project, you can use:

As an axis, you can use:

- < Composition > -

You can choose the location of the actual and project value in the numerator or in the denominator. You can also specify prefixes/suffixes for these values.

-< Color >-

You can select colors to display the corresponding values.

-< Options >-

You can choose the dimensional style and tolerance.

-< Layer >-

You can assign a layer from existing ones in the drawing or create a new one for created dimensions.

Geo_dev_2dist_ax-co-pt

The application is similar to  Geo_dev_dist_ax-co-pt, with only one difference being that 2 dimension are supplied from one corner of the structure to 2 perpendicular axes, containing the project and actual  values.

Geo_dev_dist_ax-co-pt_curv

The application is similar to Geo_dev_dist_ax-co-pt, with only one difference being that the axis and project can be curved lines, such as Spline or Civil’s traces

Geo_dev_dist_+_fact

The application adds to the already existing dimensions the actual distance calculated by the points found near the base points of the dimension. In this case, at least one point of the actual point is sufficient.

You can specify the tolerance upon the first request. The second request is the sample point. The third one is the sample dimension. The fourth one is the desired area in the drawing.

 

Geo_dev_dist_sel_bad

The application allows you to select dimensions that contain values that are large, than the allowed values.

You can specify the sample dimension upon the first request. The second request is selecting of the desired area in the drawing.

 

Deviations of point objects

Geo_dev_point_from_point

The application creates arrows with signatures of deviations from the project in the plan, as well as the callouts with the value of the deviation from the altitude.

As the actual position, you can use:

As a project position, you can use:

-< Tolerances >-

You can enter the value of the tolerances and choose which parameters we will calculate and sign.

-< Text >-

You can choose the text style for the signature of deviations.

All blocks are created with the height of attributes equal to 1. When inserted into the drawing, they are given the appropriate scale, so that the height of the attribute corresponds to the annotation you entered in the dialog at the current annotation scale.

In this case, the blocks are annotative and their size will change when you change the annotation scale.

- < Project altitude > -

A design altitude can be taken from an object, or you can specify a fixed value.

 - < Coefficient > -

It is for converting the measured values from the drawing units to the ones you need.

-< Layer >-

You can assign a layer from existing ones in the drawing or create a new one for created objects.

Geo_dev_point_from_line

The application is similar to Geo_dev_point_from_point, with only one difference being that the project position acts as linear objects instead of point ones:

And also you can choose which side of the line is acceptable to set the deviation.

High-altitude survey

Geo_dev_level

The application makes the high-altitude deviations on the plan.

-<Project>-

As the project data, can be:

-<Actual>-

As actual data, can be:

-< Signatures >-

You can sign the altitude deviation by the following objects:

You can also specify the height, style and color of the signatures.

-< Tolerances >-

Enter the value of the tolerances, as well as colors, in which ones values outside the tolerance will be painted.

-< Layer >-

You can assign a layer from existing ones in the drawing or create a new one for created objects.

-< Options >-

 

You can specify the coefficient for the calculations, as well as the accuracy of displaying the values of the deviations.

Briefly about us

Hello! My name is Alexander Berdyugin.

I wrote the first applications for myself, relying on my experience in cameral work, after that I tested them myself, constantly applying them in my work, found and fixed bugs, added new functions to further automate cameral processing.

Now I am only engaged in the development of applications (in fact, writing code is only a third of the case, it still takes a lot of time to design buttons, panels, writing certificates, recording video clips, technical support, issuing certificates, and much more ...). Those. I don’t work as a surveyor, I don’t do any office work, and I can’t test my modules in practice. The only testing, when I record a video instruction, I find bugs and ideas come up for further improvement or addition.

Therefore, feedback is very important, if something does not work for you or does not work - write to me, or this is a bug and with your help I will find out and fix it, or I will tell you how to properly prepare the data for the application to work. Or not all routine processes are automated yet - write to me, and together we will figure out how to make AutoCAD work for you.

Briefly about us

Comprehensive Solutions For Autocad

AutoCAD is software for 3D computer modeling from Autodesk, which is developed for product design, buildings, production planning, civil infrastructure and construction.

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