UTILITIES

Creating a hatch

Main menu: Mechanical - Utilities - Create hatch.

Toolbar: Utilities - Create hatch.

Command line: MCHPATTERN.

In nanoCAD Mechanica 23 it is possible to create hatches according to a given pattern - a sketch using the "Create hatch" tool. The hatch pattern created with it is written as an independent * .pat file and can be used in other projects or by other users.

Procedure

1.Create a border for the hatch sketch. Construct a 300x300mm rectangle and place its bottom-left corner at the origin of coordinate system 0,0,0. The sketch area must be at the origin of the coordinate system. Overall dimensions of the sketch area should not be more than 300x300mm.

2. Sketch one element of the future hatch. The sketch needs to be done within the created rectangle. The sketch should only be done with lines. It is not allowed to sketch with arcs, circles. It is recommended to approximate curved objects in polylines without arc segments. Sketch polylines must be exploded into line segments.

3. Assign a different color to each section of the sketch. The sketch should be done with segments of different colors. The hatch tool recognizes the periodicity in the sketch by the color of the lines.

4. Create an array of sketches within a rectangle. The sketch must follow an explicit periodicity. The sketch must include at least three repeating fragments of the future hatching.

5. Call the command  "Create hatch".

6. Create an array of sketches within a rectangle. The sketch must follow an explicit periodicity. The sketch must include at least three repeating fragments of the future hatching.

7. Press the "Enter" key. The process of object recognition and analysis will begin. During recognition, gaps in sketch lines are automatically determined, if in the selected pattern the line break is outside the selection boundary, the line will be defined in the hatch as continuous. If the sketch does not meet the conditions, a message box will appear, otherwise the file save dialog.

8. Correct the errors indicated in the message. Repeat step 5 - step 7.

9. In the file save dialog specify the path to the hatch file.

Important!

You cannot use the names "Acad.pat", "Acadiso.pat" as the name of the sample file. It is recommended to save in C:\ProgramData\Nanosoft\nanoCAD Mechanica 23\SHX

10. The custom hatch will be created. The hatch created with the "Create hatch" tool fully accepts all the properties of the nanoCAD hatch: associativity, the ability to change the scale, the angle of inclination, overlay with a closed tolerance.

Important!

A drawing file * .dwg that used a unique hatch must be transferred to another user along with the * .pat file of the hatch pattern. For a successful translation, use the (eTransmit) "Generate Set" command.

Objects numeration

Main menu: Mechanical - Utilities - Objects numeration.

Ribbon: Mechanical - Utilities - Objects numeration.

Toolbar: Objects numeration (on toolbar  "MCS Utilities").

Command line: MCNUMOBJ.

The command finds all specified objects with attributes and numbers it according to a given algorithm.

Procedure

    1.    Call the team. The "Object Numbering" dialog opens.

    2.    Select objects. Select an object using the quick selection. All objects that have text editable attributes (block, database object, universal marker, etc.) can be selected.

After selecting an object, a list of attributes common to the selected objects and available for editing is formed.

Additional list management commands:

Set selection - the command allows you to specify objects in the drawing.

Reset conditions - command clears the list of conditions.

    3.    Select the attribute in which the result of numbering will be recorded. 

    4.    Select the numbering method:

- from left to rigth, from top to bottom. When choosing this method, the command compares the coordinates of points X and Y, respectively, starts numbering from the highest and leftmost objects to the lowest and right relative to the base point.

- from bottom to top, from left to right. When choosing this method, the command compares the coordinates of points X and Y, respectively, starts numbering from the lowest and leftmost of the entire object to the highest and right relative to the base point.

- from rigth to left, from top to bottom. When choosing this method, the team compares the coordinates of points X and Y, respectively, starts numbering from the topmost and to the right of the entire object to the lowest and leftmost relative to the base point.

- from bottom to top, from right to left. When choosing this method, the command compares the coordinates of points X and Y, respectively, starts numbering from the lowest and most right of the entire object to the highest and left relative to the base point.

- radial anticlockwise. When choosing this method, the command compares the coordinates of points in the polar coordinate system, the distance from the center (specified by the user base point) and the angle between the zero direction (positive X-axis direction). Numbering is counterclockwise. When this method is selected, the selection of the base point becomes available.

- radial clockwise. When choosing this method, the command compares the coordinates of points in the polar coordinate system, the distance from the center (specified by the user base point) and the angle between the zero direction (positive X-axis direction). Priority in comparison has an angle. Numbering is clockwise. When this method is selected, the selection of the base point becomes available.

- spiral anticlockwise from center. When choosing this method, the command compares the coordinates of points in the polar coordinate system, the distance from the center (specified by the user base point) and the angle between the zero direction (positive X-axis direction). Priority when comparing has distance from the center. The numbering is counterclockwise from the center. When this method is selected, the selection of the base point becomes available.

- spiral clockwise to center. When choosing this method, the command compares the coordinates of points in the polar coordinate system, the distance from the center (specified by the user base point) and the angle between the zero direction (positive X-axis direction). Priority when comparing has distance from the center. Numbering is clockwise to the center. When this method is selected, the selection of the base point becomes available.

    5.    Indicate a base point if necessary. The base point is indicated either by entering the X and Y coordinates, or by pointing to the screen. When cocking the "Specify point" checkbox, the point is indicated after pressing the "OK" button.

    6.    Customize the brand. The formation of the brand comes from three parts. The prefix and suffix is specified in the editable field. And the brand value itself is calculated based on the initial value entered by the user and the step between subsequent values.

    7.    Click "OK."

    8.    If the "Specify point" checkbox has been set, specify the base point in the drawing.

    9.    Numbering will be made.

Measurements

Main menu: Mechanical - Utilities - Measure.

Ribbon: Mechanical - Design - Measure.

Toolbar: Measure (on toolbar  "Utilities").

Command line: MCMEASURE.

Measurements or tool with Mark drawing is designed to extract various properties of objects in the drawing.

After selecting the command a dialog box value picker opens.

Measure distance. Measures the distance between two points, radius or diameter. Switching the measurement method is via the context menu.

Measure angle. Measures the angle.

Measure Perimeter. Measure the perimeter of the closed area, the length of a closed polyline or circle.

Measure area. Measures the area of the closed area. Select an area in two ways: 1 - Click inside the closed loop, 2 - Click on the closed polyline or circle.

Complex area. Measures the area of several loops. Selecting the area is carried out: 1 - Click to specify the first closed loop, 2 - Click to specify the second closed loop 3 - Press Enter to complete the command.

Take from property. Allows you to get the value of the parameter selected in the drawing object nanoCAD Mechanica23.

Take from text. Returns the value of the selected single-line or multi-line text.

Calculate. Opens calculator.

Take from notes. Opens the notebook.

The measured values are displayed in the dialog box.

If universal measuring time was part of a command (for example, the dialog box nanoCAD Mechanica23 text context menu command), the measured value is transmitted to the command being executed.

Fragment Copy

Main menu: Mechanical - Utilities - Fragment copy.

Ribbon: Mechanical - Utilities - Fragment copy.

Toolbar: Fragment copy (on toolbar  "Utilities").

Command line: MCCOPY.

The command is used to create remote views of the drawing.

    1.    Select the drawing center point for the detail view.

    2.    Select the area of the drawing. In the context menu, you can choose a certain kind of marquee - circle or rounded rectangle. Secure selection click.

    3.    Specify the drawing center remote fragment. available in the context menu command "0-cut" to remove the original objects from the drawing.

Plate Array

Main menu: Mechanical - Utilities - Plate array.

Ribbon: Mechanical - Utilities - Plate array.

Toolbar: Plate array (on toolbar  "Utilities").

Command line: MCPLTARRAY.

Command to tile layouts for a given circuit.

    1.    Choose from a base  tile pattern and place it on the drawing.

    2.    Press the plate array.

    3.    In the opened window, click the plate shema and specify the token group.

    4.    Select Trim mode extreme tiles .

                  ·     Trim plates by area border - tiles clipped to the boundary of the layout. Circuit tile becomes open. This tile is taken into account in property "Cut". This mode is not available if you enable the check box "Make each tile a separate."

                  ·     Include trimmed plates - extreme tiles stacked atop circuit layout.

                  ·     Exclude trimmed plates - tiles, overlapping circuit layouts do not fit.

                  ·     Sect border type face- if tiles have execution end elements will be selected most podhodyaeschee. When the layout of the area selected by the execution system names: Whole, Left, Right, Top, Bottom. When the layout along the border all versions checked sequentially, regardless of names.

Trim plates by area border	Include trimmed plates	Exclude trimmed plates	Sect border type face

    5.    Create each plate as a separate object.

If the box is checked, the result will be a group of independent layout objects - copies of the original objects. This mode does not support cutting elements on the boundaries of the area, but allows more flexibility to edit the result.

When the check box is created off a single object that includes all geometry. In the properties of this object will be information on the number, weight and costs of each type of tiles, as well as the total weight (based on the whole tiles) and cost. You can delete individual tiles by clicking on them with the right. In this case the total amount will be adjusted, weight and cost.

    6.    Determine the work area tiles.

                  ·     auto detect - layout area defined contour, which is located inside the tile pattern. In the inner islands stacked tiles will not.

                  ·     magnet - loop selection tool "magnet".

                  ·     select - area layout is selected in the drawing indicating one or more loops.

                  ·     border - tiles splits along the perimeter or primitives nanoCAD. Cropping mode in this case will simulate laying curbs.

    7.    To complete the command, press OK.

Note:

Creating a template tile layouts can be done using Object Wizard.

Creating an array of objects

Main menu: Mechanical - Utilities - Array.

Ribbon: Mechanical - Utilities - Array.

Toolbar: Array (on toolbar  "Utilities").

Command line: MCARRAY.

Replication called ordered distribution of copies of objects by step and quantity. Duplication of graphics in the nanoCAD Mechanica23 is performed using a dialog box arrays.

Four tabs in the Arrays dialog box define four (4) different object replications.

      ·    Arrays along an arbitrary path

      ·    Arrays for arc trajectory

      ·    Rectangular array

      ·    An array of step

For the distribution of objects within a specified area used for an array field .

Arrays along an arbitrary path(Trajectory)

    1.    Tab Path enter the governing parameters.

    2.    Follow The selection object (object selection).

    3.    Specify the base point.

    4.    Select trajectory.

    5.    Follow View .

    6.    Click OK to complete the command.

At the top of the window is a group of controls placement, which allows you to select:

      ·    Quantity;

      ·    Copy step;

      ·    Base point;

      ·    Step correction;

In the drop-down list make a choice of Overlap:

      ·    Transparent objects;

      ·    Next under preceding;

      ·    Next Over preceding;

      ·    Interleave.

Button  pick from drawing step allows you to select copies of the objects in the drawing.

Switch Show hidden line controls the display of hidden lines in the drawing. If the switch is on the hidden lines are displayed in the drawing.

Switch Rotate copies controls the orientation of the copied object. If the switch is on when copying objects are rotated so that the vector Y was directed perpendicularly to the path (as shown in the figure).

Button  Selection to select the replication object in the drawing.

Button  from the base to select the object from the database replication of standard elements.

Button Base point lets you choose the base point of duplicated object (normally it should be expressed in the center or corner of the object).

Button select a trajectory to select a graphic object, along which you will be replicating. As the trajectory can be used lines, polylines, arcs, circles.

Arrays for arc trajectory

    1.    Tab Arc enter the governing parameters.

    2.    Follow The selection object (object selection).

    3.    Select Center array.

    4.    Follow Preview .

    5.    Click OK to complete the command.

At the top of the window is a control group accommodation, which lets you choose placing of replicated objects:

      ·    By number and step;

      ·    By number and angle;

      ·    By step and corner;

In the input field Number specify the number of replicated objects.

In the entry field Step Angle enter the angle between the replicable elements.

In the input field angle specify the angle required.

Button with Mark drawing  step allows you to select the corner or angle with the drawing.

In the drop-down list make a choice of Overlap:

      ·    Transparent objects;

      ·    Next under preceding;

      ·    Next over preceding;

      ·    Interleave.

Switch Show hidden line controls the display of hidden lines in the drawing. If the switch is on the hidden lines are displayed in the drawing.

Button  Selection to select the replication object in the drawing.

Button  insert from database used for selecting a center point which the objects will be replicated.

Button array center used for selecting a center point which the objects will be replicated.

Switch Rotate copies controls the orientation of the copied object. If the switch is on the turn when copying objects are shown in the figure.

Rectangular array

    1.    Command Rectangle enter key parameters.

    2.    Follow The selection object  (object selection).

    3.    Follow Preview .

    4.    Click OK to complete the command.

Enter the number of objects in the array horizontally and vertically, to specify the amount of horizontal and vertical steps between objects.

Steps of an array

    1.    Tab steps enter the governing parameters.

    2.    Follow The selection object (object selection).

    3.    Follow > View .

    4.    Click OK to complete the command.

Enter the number of objects in the array, specify the amount of horizontal and vertical step between objects.

Area array

Main menu: Mechanical - Utilities - Area array.

Ribbon: Mechanical - Utilities - Area array.

Toolbar: Utilities - Area array.

Command line: MCARDARRAY.

The tool is designed to replicate objects within a given area.

Procedure

1. Call the command "Area array". A dialogue will open "Area array".

2. Click the "Object(s)" button and select the original objects to copy in the drawing. Press the "Enter" key to complete the selection.

3. Select the method of placing the copied objects using the graphic switch:

 - Rhombus.

 - Square.

 - Triangle.

4. Specify the spacing (H) between adjacent copies. The "Pick from drawing" button allows you to select a step from the drawing.

5. Specify the minimum indent (?) from the edge of the area. The "Pick from drawing" button allows you to select an indent from the drawing.

6. Set the area of the array in one of three ways:

      ·    "Select an area by the point". The construction area is formed from a set of closed areas. The command allows you to add closed areas to the set by clicking the LMB inside a closed contour in the drawing. Clicking again inside the contour removes the selected area from the set. To complete the selection, press the "Enter" key.

      ·    "Select contour with the magnet". The contour of the array area is set using the utility "Magnet".

      ·    "Paint area". The command allows you to specify an arbitrary placement of copied objects, providing a set step between adjacent copies. This command is available only after selecting the source objects to copy.

The construction of the area is carried out by moving the mouse cursor over the drawing (construction must be started from the location of the original objects). As you move the cursor, markers will appear on the screen to indicate where the copied objects are inserted.

To remove insertion markers, press and hold the "Shift" key. When you hover over a marker, the marker will be deleted.

To temporarily disable the placement of markers, press and hold the "Ctrl" key.

Finish drawing the area by clicking LMB. An array by area will be built.

7. Click the "OK" button. An array by area will be built.

Centerlines

Main menu: Mechanical - Utilities - Centerlines.

Ribbon: Mechanical - Utilities - Centerlines.

Toolbar: Utilities - Centerlines.

Command line: MCAXIS.

The command is designed to draw centerlines.

Procedure

The construction method depends on the selected objects:

      ·    Parallel lines. The centerline will be drawn in the middle between these segments.

1. Call the command "Centerlines".

2. Select the first line.

3. Select the second line.

4. Specify manually the first point of the centerline or press the "Enter" key. When you press the "Enter" key, the centerline is drawn automatically with a protrusion specified in the settings (by default 2mm).

5. Specify manually the second point of the centerline or press the "Enter" key. When you press the "Enter" key, the centerline will stop drawing, the second point will be in the calculated center between the lines.

In the case of manual selection of the start / end point of the centerline, the amount of the protrusion is controlled by the user.

      ·    Non-parallel line segments. The centerline will be drawn along the bisector of the angle between the line segments.

1. Call the command "Centerlines".

2. Select the first line.

3. Select the second line.

4. Select the direction of the centerline. Using the "Rotate" context menu command, you change the direction of the centerline drawing (available only for intersecting line segments).

5. Specify manually the first point of the centerline or press the "Enter" key. When you press the "Enter" key, the centerline is drawn automatically with a protrusion specified in the settings (by default 2mm).

6. Specify manually the second point of the centerline or press the "Enter" key. When you press the "Enter" key, the centerline will stop drawing, the second point will be in the calculated center between the lines.

In the case of manual selection of the start / end point of the centerline, the amount of the protrusion is controlled by the user.

      ·     One circle. Draws centerline centerlines on the selected circle.

1. Call the command  "Centerlines".

2. Pick a circle.

3. Press the "Enter" key.

      ·    Two or more circles. Draws centerline centerlines on selected circles with one common centerline.

1. Call the command  "Centerlines".

2. Select the first circle.

3. Select the second circle.

4. Press the "Enter" key. If on the line between the centers of the two selected circles there are also centers of other circles, then for such circles, axial ones will also be built.

      ·    Three mismatched circles. Creates a circle of centers passing through the centers of the selected circles. Center axes are automatically added to all circles whose centers coincide with the constructed center circle.

1. Call the command  "Centerlines".

2. Select the first circle.

3. Select the second circle.

4. Select the third circle.

Fillet

Main menu: Mechanical - Utilities - Fillet.

Ribbon: Mechanical - Utilities - Fillet.

Toolbar: Fillet (on toolbar  "Utilities").

Command line: MCFILLET.

Command Options

Pick from drawing

 Mode full trim contour lines

 Mode partial trim lines to their intersection

 Mode without cutting

Copying properties

 Measure fillet. Tabulated fillet radius and the number

 Extra measurement. Stamped dimensions of the original geometry. Active only when the button "dimensioned pairing"

Insert circle as fillet.

Double click the left mouse button or click the right mouse button in the input fields of values, a context menu will open with a list of the last entry:

When a command from the context menu, the following options::

properties  - Open the dialogue to change the chamfer .

new  - Completion of a group of facets and the beginning of another. This command is used when you need to, for example, several facets of the same size on the same site, and then with the same dimensions - on the other:

Chamfer - Switch to build Circle. After you select the shortcut menu command opens this dialog Pairing parameter setting interface.

polyline - Switching to chamfering along the selected polyline. This option is available if you have selected the type of symmetric Circle: one length or two identical length. In operation, the cut-off modes are ignored and dimensioning.

Features of the Command

Command works in 3D. To execute the command source primitives must lie in one plane

If you select the second object, press and hold SHIFT, then the angle will be formed (at the intersection of the closure and isolation).

For a pair of ARC-ARC additionally available pairing, combining internal and external touch.

For a pair of ARC-ARC additionally available pairing, combining internal and external touch.

Availability of different types of interfaces depends on the fillet radius. To the outside and combining the radii need greater magnitude than the inner.

When two parallel lines will be constructed pairing radius equal to half the distance between them (regardless of the specified length). Automatically aligns the sides to the longest segment. When two parallel lines will be constructed pairing radius equal to half the distance between them (regardless of the specified length). Automatically aligns the sides to the longest segment.

Pairing works parallel segments and regions of the same polyline.

Side interface depends on the position of the mouse cursor when the second object

When you insert a polyline retains its integrity.

If the team is formed of two polylines one, it will be object of a single polyline.

If you select one polyline segments separated by other sites, all the intermediate portions are removed.

Chamfer

Main menu: Mechanical - Utilities - Chamfer.

Ribbon: Mechanical - Utilities - Chamfer.

Toolbar: Chamfer (on toolbar  "Utilities").

Command line: MCCHAMFER.

Command Options

This command is used for automatic and semi-automatic placement of face on the details with the various versions and with the possibility of automatic dimensioning.

After clicking the command, it opens a dialog box settings Circle:

Mode chamfering parts with two different sizes

Mode chamfering parts with two different sizes

Mode Chamfer length and angle in this mode instead of the length 2 displays the setting angle.

 Mode full cutting contour lines

 Mode partial cutting lines to their intersection

 Mode without cutting

 Measure Chamfer

 Copy properties surrounding face

 Pick from drawing

Double click the left mouse button or click the right mouse button in the input fields of values, context menu will open with a list of the last entry:

When a command from the context menu, the following options:

Propertise - Opening the dialogue to change the chamfer chamfer.

New  - Completion of a group of facets and the beginning of another. This command is used when you need to, for example, several facets of the same size on the same site, and then with the same dimensions - on the other:

Fillet -  Switch to build pairings. After you select the shortcut menu command opens this dialog Pairing parameter setting interface.

Polyline - Switching to chamfering along the selected polyline. This option is available if you have selected the type of symmetric Circle: one length or two identical length. In operation, the cut-off modes are ignored and dimensioning.

Features of the command

The command works in 3D. To execute the command source primitives must lie in one plane.

If you select the second object, press and hold SHIFT, then the angle will be formed (at the intersection of the closure and isolation).

When you insert a polyline retains its integrity.

If the team is formed of two polylines one, it will be object to a single polyline.

If you select one polyline segments separated by other sites, all the intermediate portions are removed.

Breaks

Main menu: Mechanical - Utilities - Breaks - Break lines.

Ribbon: Mechanical - Utilities - Break lines.

Toolbar: Break lines ( "MCSBreaks").

Command line: MCBREAK.

Procedure

1. Select the first point to insert the break line.

2. In the context menu, select the type of break (break) (Linear, Two-lenear, Curved, tWo-curved, tuBular).

3. Pick the second break point.

4. In the context menu, select the type of cursor movement control (FreeOffset, OrthoOffset).

5. Specify the width of the cliff (break). A cliff (break) will be built.

Note:

The whole clipped geometry between the break lines is not actually deleted and can be restored either by removing the break line or editing its contour with the grips nodal points.

 

Note:

All objects nanoCAD Mechanica 23 have a so-called Z-Order. This value sets the level of the Z-coordinate in relation to other object-dependent details nanoCAD Mechanica 23. Editing the value of the order, you can control the mutual overlap of objects  nanoCAD Mechanica 23.

Dialogue

The edit dialog is opened from the tooltip when you hover on a break (break) or when you double-click on a break (break).

Editing dialog includes:

      ·    Graphic break type switch;

      ·    Field "Length";

      ·    Field "Width";

      ·    Field "Offset". You can get the value using the offset command "Parallel to specified line".

Grips

    1.    Grips length setting 

    2.    Grips break width settings

    3.    Break displacement grip

    4.    Drop-down type grip

                  ·     Linear

                  ·     Two-linear

                  ·     Curve

                  ·     Two-curve

                  ·     Tubular

Linear break

Main menu: Mechanical - Utilities - Breaks - Linear break.

Ribbon: Mechanical - Utilities - Linear break.

Toolbar: Linear break ( "MCSBreaks").

Command line: MCBREAK_LINEAR.

Two-linear break

Main menu: Mechanical - Utilities - Breaks - Two-linear break.

Ribbon: Mechanical - Utilities - Two-linear break.

Toolbar: Two-linear break ( "MCSBreaks").

Command line: MCBREAK_TWOLINEAR.

Curved break

Main menu: Mechanical - Utilities - Breaks - Curved break.

Ribbon: Mechanical - Utilities - Curved break.

Toolbar: Curved break (  "MCSBreaks").

Command line: MCBREAK_CURVED.

Two-curved break

Main menu: Mechanical - Utilities - Breaks - Two-curved break.

Ribbon: Mechanical - Utilities - Two-curved break.

Toolbar: Two-curved break (  "MCSBreaks").

Command line: MCBREAK_TWOCURVED.

Shaft break

Main menu: Mechanical - Utilities - Breaks - Shaft break.

Ribbon: Mechanical - Utilities - Shaft break.

Toolbar: Shaft break (  "MCSBreaks").

Command line: MCBREAK_TUBULAR.

Construction lines

Main menu: Mechanical - Utilities - Construction lines.

Ribbon: Mechanical - Utilities - Construction lines.

Toolbar:  "Construction lines".

Auxiliary lines are characterized by a layer in which they are placed by default (MCSCLines), color (red) and line type (thin solid), that are set in the settings. Additional settings - prostanovki rays or lines. Settings only apply to newly inserted objects. When you switch the existing objects remain as it is.

The table below describes which objects need to select and how formed auxiliary line in terms nanoCAD.

Some commands allow you to specify a sequence of auxiliary lines in the format XX|XX|XX, where XX - the amount of displacement of the beam (direct) in degrees or drawing units from the base position or previous beam, rendered in this command.

Command	Name	The algorithm works command		Objects of choice
		When drawing rays (_ray)	When drawing lines (_xline)
Mcconsthor	Create a horizontal auxiliary line	Command is invoked _ray, in which the user is given the insertion point. The second point is determined by the program to define the orientation of the beam is strictly horizontal. Point is determined by the positive direction of the X axis. Option R-Turn-ray-to-180-degrees allows you to change the direction of the beam on the opposite	Command is invoked _xline, in which the user is given the insertion point. The second point is determined by the program to define the orientation of the line is strictly horizontal.	Insertion point
Mcconstver	Creating vertical reference line	Command is invoked _ray, in which the user is given the insertion point. The second point is determined by the program to define the orientation of the beam is strictly vertical. Point is determined by the positive direction of the axis Y. Option Rotate-ray-through-180-degrees allows you to change the direction of the beam on the reverse.	Command is invoked _xline, in which the user is given the insertion point. The second point is determined by the program to define the orientation of the line is strictly vertical.	Insertion point
Mcconstz	Create an auxiliary line in the direction Z	Command is invoked _ray, in which the user is given the insertion point. Constructed beam emerging from this point in the positive direction OZ. Option Rotate-ray-through-180-degrees allows you to change the direction of the beam on the reverse.		Insertion point
Mcconstcrs	Creating auxiliary lines intersecting	Command is invoked _ray, in which the user is given the insertion point. Built at the intersection of the rays of the insertion point in the positive direction of the axes OX and OY. Options allow you to select the quadrant bounded by the rays.	Command is invoked _xline, in which the user is given the insertion point. Constructed lines intersect at the insertion point.	Insertion point
Mcconsthb	Create an auxiliary line by two points or corner	Command is invoked _ray,in which the user is given the insertion point. Then to complete the command inserted rays at a predetermined angle with respect to OX (angle determined by the second point specified by the user) or a number of angles for group insert format XX | XX | XX.	Command is invoked _xline, in which the user is given the insertion point. Then to complete the command inserted straight with a predetermined angle with respect to OX (angle determined by the second point specified by the user) or a number of angles for group insert format XX | XX | XX.	Insertion point, a point which determines the angle (angle) or entering a number. The command completed after entering the series or after the forced shutdown command (Esc or right button).
Mcconsthw	Create an auxiliary line at an angle to the segment	Command is invoked _ray, in which the user is given the insertion point. Specifies the position of the base angle (line). Then to complete the command inserted rays at a predetermined angle relative to the base angle or angles for a number of bulk-insert format XX | XX | XX. The angle is determined by the user of said second point.	Command is invoked _xline, in which the user is given the insertion point. Specifies the position of the base angle (line). Then to complete the command inserted straight with a predetermined angle relative to the base angle or angles for a number of bulk-insert format XX | XX | XX. The angle is determined by the user of said second point.	Insertion point, the point defining the base angle (or segment), which determines the point angle (angle) or entering a number. The command completed after entering the series or after the forced shutdown command (Esc or right button).
Mcconstpar	Creating an auxiliary line parallel at a predetermined distance	Command is invoked_ray, in which the user selects a segment, polyline, line or ray. Further, given the parallel position of the object as a point through which it must pass (in the case of a polyline - equidistant) or number of copies of an object in the format XX | XX | XX.	Command is invoked _xline, in which the user selects a segment, polyline, line or ray. Further, given the parallel position of the object as a point through which it must pass (in the case of a polyline - equidistant) or number of copies of an object in the format XX | XX | XX.	Beam line, polyline or line. Reference point or enter a number. The command completed after entering the series or after the forced shutdown command (Esc or right button).
Mcconstpar2	Creation of a parallel auxiliary line at half the specified distance	Command is invoked _ray, in which the user selects a segment, polyline, line or ray. Further, given the parallel position of the object as a point through which it must pass (in the case of a polyline - equidistant) or number of copies of an object in the format XX | XX | XX. The resulting objects are at half of the distance.	Command is invoked _xline, in which the user selects a segment, polyline, line or ray. Further, given the parallel position of the object as a point through which it must pass (in the case of a polyline - equidistant) or number of copies of an object in the format XX | XX | XX. The resulting objects are at half of the distance.	Beam line, polyline or line. Reference point or enter a number. The command completed after entering the series or after the forced shutdown command (Esc or right button).
Mcconstlot2	Establishment of a subsidiary of the perpendicular by two points	Command is _ray, in which the user is given the insertion point. Then, the user specifies the second point (a preview is rendered beam and segment coming from the insertion point, the second point is tied to the cursor) to specify the second point forms perpendicular to the beam. Ray is drawn perpendicular to the object.	Command is invoked _xline, that sets the insertion point. Then, the user specifies the second point (a preview is rendered straight and cut coming from the insertion point, the second point is tied to the cursor) to specify the second point forms perpendicular to the line. Direct drawn perpendicular to the object.	Insertion point, reference point on the perpendicular to the object renders.
Mcconstlot	Create an auxiliary line perpendicular to the segment	Command is invoked _ray, for which the user selected reference object and point to it. Ray is drawn perpendicular to this object at the selected point. Starting beam is at a selected point.	Command is invoked _xline, , in which the user selects the object and reference point on it. Direct drawn perpendicular to this object at the selected point. Middle line is the selected point.	Beam line, polyline or line. Point on the object.
Mcconsthm	Create an auxiliary line to the corner along the bisector	Command is invoked _ray, for which the user selects two reference object. Ray is based on the bisector between the two reference objects.	Command is invoked _xline,in which the user selects two reference object. Direct built along the bisector between the two reference objects.	Beam line, polyline or line.
Mcconsttan	Create two parallel auxiliary lines tangent to the circle	Selected circle or arc that it may determine. Constructed two rays tangent to the circle, it is necessary to ask a series of positioning angles or point specified segment emanating from the center of the circle and parallel rays (link).	Selected circle or arc that it may determine. Constructed two lines tangent to the circle, it is necessary to ask a series of positioning angles or point specified segment emanating from the center of the circle and parallel lines (link).	Circle or arc.
Mcconstcc	Creating auxiliary circle another circle concentric circle or arc is selected.	Automatically construct a circle concentric with the selected object and specify the diameter (or the given number of diameters). The command completed after entering the series or after the forced shutdown command (Esc or right button).		Circle or arc.
Mcconstc2	Creating auxiliary circle tangent to the segment	Selected reference line object, the user specifies a point lying on the circle defined by the radius of the circle (the system offers the minimum possible radius which is equal to half the distance along the normal from the selected point to the segment, and controls the maintenance of value (greater or equal)). We construct a circle at two points of tangency (one point is given conditional perpendicular) and radius..		Beam line, polyline or line. Point belonging to the circle.
Mcconstkr	Creating auxiliary circle tangent to two segments	Selected two reference linear object and specify the diameter. We construct a circle at two points of tangency and radius.		Beam line, polyline or line.
Mcconstkr	Creating auxiliary circle tangent to three segments	Selected two reference linear object. We construct a circle at three points of tangency.The radius is calculated automatically.		Beam line, polyline or line.
Mcconstcircli	Creating auxiliary square circumscribing circle	Selected circle or arc, automatically builds a square, a circle is described. The context menu provides switching between inscribed and described by the square.		Circle arc.
Mcconsttc	Create an auxiliary line tangent to two circles	Selected consecutively two arcs or circles. Constructed beam tangent to the two circles, a definite choice (touch point - coming to a place of choice, the beginning of the beam - the first object).	Selected consecutively two arcs or circles. Constructed line tangent to the two circles, a definite choice (touch point - coming to a place of choice, the center line - the first object).	Two arcs or circles
Mcconst_circle	Creating auxiliary circle	This is the counterpart nanoCAD assigning properties auxiliary geometry.
Mcconstxray	Creating a subsidiary of rays emanating from a single point	This is the counterpart nanoCAD assigning properties auxiliary geometry.
Mcconstxline	Creating auxiliary lines passing through one point	This is the counterpart nanoCAD assigning properties auxiliary geometry.
Mcconstlines	Auxiliary lines	This command displays the settings nanoCAD Mechanica 23 with a pointer to the section Auxiliary lines.
Mcclineo	Enable / disable the auxiliary lines	This command automatically hides all auxiliary lines.
Mcconsterase	Remove auxiliary lines	This command automatically removes all auxiliary lines.

Calculator

The calculator is designed for complex mathematical calculations. The capabilities of the table and text editor are significantly expanded using the powerful functionality of the calculator.

The calculator is available in the table editor, text editor, when using the "Inquiry" utility in the "Value picker" dialog.

The "Calculator" dialog consists of a main menu and a set of grouped commands.

Main menu

      ·    Edit

                  ·     Copy Ctrl+C - the command copies data from the input field.

                  ·     Paste Ctrl+V - the command pastes the copied data into the input field.

      ·    View

                  ·     NoteBook - command opens the notebook panel.

                  ·     Degrees - the command switches the mode of calculating angles in degrees.

                  ·     Radians - the command switches the mode of calculating angles in radians.

                  ·     Expression - the command turns on the formula calculation mode. The input field is divided into two: on the left is the formula, on the right is the result.

Commands

Drop-down list "Precision" - sets the rounding digit of the calculation result.

Switch "Degrees - Radians" - switches the angle calculation mode.

Group of buttons "Mathematical operations".

The main group of calculator buttons. The composition of the buttons is similar to all standard calculators.

Buttons for navigating table cells. Available when editing a table cell. It also shows the name of the currently edited cell.

Button  to open the "Notebook" sidebar. It is possible to connect the spreadsheet editor of the "Notebook" tool. The additional sidebar lists tables from the notebook in a drop-down list. After selecting a table, its composition will be displayed. Double-clicking on a value from the table adds this value to the input field. This tool is useful when you need to perform routine calculation activities frequently.

The "Insert" button is designed to insert the result of calculations from the calculator into an editable cell, a text entry field or the "Value picker" dialog.

The "Close" button closes the calculator dialog without transferring the value.

Insert material designation to the table

Button material designation.

This tool is designed to be inserted into the table, the technical requirements and specifications of the formatted string records on material and product mix. By pressing the button, a dialog box appears called material designation.

Notebook

Button  Notebook

To enter recurring standard text expressions (abbreviations, symbols, etc.) used tool Notebook. This is a versatile tool for some editing tools nanoCAD Mechanica23, which is necessary to enter text. Notebook combines the functions of: storing a set of expressions and the structure of their placement in a separate file, input and placement of text expressions, input and placement of small tables, searching and editing tools introduced earlier records.

Dialog Notebook divided into two parts. On the left side there is a tree structure of the notebook where the user selects the sections and pages notebook. In the upper part of the window control buttons notebook.

Load from file. Opens the notebook file stored on disk.

Save. Saves the changes to the file in your notebook.

Important!

Recommended that you save a new notebook in a separate file in the first call to the tool Notebook using the button Save.

To search for a text string in a notebook has a special search tool, Right-click on any section or page of the section and in the context menu, call the command Find. Found links are placed in the section results

To accelerate the search procedure provided for viewing the latest expressions used in section history.

Management structure for the notebook with the buttons:

Add a partition

Add this page

Add a table

Delete tree item

In the notebook is allowed to create an unlimited number of sections and subsections, pages, and tables.

Moving sections, pages, and tables for structural wood can produce a drag and drop (drag and drop).

Rename the selected section or page using the command Rename the shortcut menu.

Select / Copy the selected text. Transmits the selected piece of text pages into editable table cell. If the tree structure of the selected page or table in your notebook, the contents displayed on the right side of the dialog. Highlight the desired entry cursor, and turn the Select / Copy the selected text.

Edit Page. This button is used to activate the edit pages and style notebook. It becomes active only if the tree structure is selected page element or table. In edit mode, the tree structure becomes inactive, and the right side activates the Edit toolbar.

Editing tools page

Clear. Clears the current page Load from file. Allows you to import an existing text file *.RTF MS Word. Save the file. Allows you to record the content into a file *.RTF for use in MS Word. Add item. Remove the item . Move up. Move down. Superscript. Includes character mode superscript. Subscript. Includes character mode subscript. Insert fraction. dialog box set the numerator and denominator.      Switch controls the display of the slash.       Insert tolerance. Opens Tolerances. Insert material. Opens material. Calculator.

Tools for editing table

Insert Row. Delete Row. Insert Column. Delete Column. Rename column. Opens Properties column in which you specify the width and title of the selected column.

After editing, when you exit the notebook dialog appears - prompted to save the changes in a notebook.

Magnet

Magnet used to draw complex paths based on existing graphics. The contour can be constructed by points or by sequential indication of adjacent segments or arcs.

Called by:

      ·    from the context menu (Weld seam, Simplified weld joint)

      ·    button "Select contour with the magnet" in the dialog (Area array).

An example of constructing a weld seam contour, based on an I-beam image inserted into the drawing

1. We call the command  "Weld seam". A dialogue will open "Weld seam".

2. Select the type of seam and click "OK".

3. In the context menu, select the command "Magnet".

4. We indicate the starting point of the contour.

5. Sequentially move the cursor over the end points of the linear and arc sections of the I-beam contour.

Deselection of the previous segment is made by re-pointing the cursor to the starting point of this segment or by the "Back" command from the context menu.

 

6. Use the "Close" command from the context menu to complete the construction of the closed contour.

7. The weld will be built along the specified contour.

Add selected

Command line: MCADDCOPY.

The command allows you to create a new object nanoCAD Mechanica based on the type and general properties of the selected object nanoCAD Mechanica.

Procedure

1. Call the command "Add selected" - ADDCOPY.

2. Press the "Space" key (the <Multiple> option will turn on) if you want to insert the object in a cyclic mode.

3. Select an object to serve as a template. The paste command for the selected object type will run. The properties of the new object will match the template object.