Location of the Stair Settings Dialog
The Ladder that appears on the screen after running the Ladder command is available in the helper toolbar.
It can also be accessed by clicking on the Reinforced Concrete / Reinforced Concrete / Stairs / Stairs Settings icon.
Stair Types Tab
Specifications | Explained |
|---|---|
Type list  | The stairs are organized under folders according to their types. The staircase to be drawn is selected under these folders. |
Plan  | The plan view of the selected stair is included. |
Perspective  | It has a three-dimensional view. It is possible to zoom in, zoom out, rotate the 3D image. In this way, the properties of the stairs can be examined in three dimensions. |
Turn the exit direction sweat  | By marking it changes the exit direction of the ladder arms. |
Definition  | The definition written for the ladder is displayed on the Stair Definition line. User cannot intervene on this line. |
Construction Tab
Specifications | Explained |
|---|---|
Construction types  | One of the straight, folded, lemon beam and ramp type ladder systems is selected by clicking with the left mouse button. |
Step parameters  | D1 is the tread lining nose length, D2 is the pier lining thickness, D3 is the rung lining thickness. If coating is not desired, these values are entered as zero. |
Lemon beam parameters  | LK1 and LK2 determine the lemon beam height. It is shown on the figure. The thickness parameter is the lemon beam thickness. |
Ladder name  | The name of the ladder is entered. |
Stair elevation  | The lower point of the stairs is the elevation measured from the floor floor. |
Number of railing surfaces  | The number of railing surfaces determines the number of railing vertical surfaces (railing section). If the number of railing surfaces is 4, the parapet cross section becomes square. |
After printing No. write  | The digits after the digit number entered here are not numbered on the ladder. |
Draw the section line  | If it is desired to draw a section line on the ladder, it is marked. |
Static Tab
Specifications | Explained |
|---|---|
Static material  | Select the static material to be used in the stair element from the list. |
Finite element width  | Enter the maximum finite element width to be taken as basis in shell calculation. The program analyzes shells by dividing them into trapezoidal form finite elements. Finite element width is automatically adjusted according to the shell shape, provided that it does not exceed the value entered in this row. |
Show reinforced concrete calculation axes  | If it is desired to show reinforced concrete calculation axes, it is marked. |
View Tab
Specifications | Explained |
|---|---|
Schematic drawing  | Which elements of the staircase are defined by line types and colors are shown in schematic drawings and numbering. |
Line types  | A separate line type is selected for the lines forming the ladder in the plan. Clicking the down arrow buttons to the right of the boxes opens the list of line types. From this list, the desired line type is selected by clicking with the left mouse button. The lines are numbered in red on the figure on the left. |
Colors  | A separate color is chosen for the lines forming the ladder in the plan. The lines are numbered in blue on the figure to the left of the dialog. When the color box is clicked, the appropriate color is selected from the window that opens. |
Label  | By marking the label, the number of berths, rung height and width are shown on the ladder. The font of the label font and the number of risers, the height and width of the digit is selected. The text color of the label color and the number of risers, the height and width of the digit is selected. The number of risers, the height of the digit and the height of the text of the width text are entered on the label height. The total number of digits is unmarked, and the number of berths, rung height and width are shown separately on each branch. If checked, total values are shown. |
Material appearance 
| The material to be used on the body, cladding, handrail and railing surfaces of the stairs is selected from the list. Surfaces are covered with the selected material and displayed as such in renderings. Tissue length is entered into the actual tissue length. For example; If 1 is entered, the selected material texture is taken as 1 meter and covered on the relevant walls. The angle is the angle of the texture. In the U and V shift, the motion value in the x and y plane of the texture is entered. With U and V mirroring, the texture is symmetrical with respect to the y and x planes. By selecting the single material option, the material selected in the "Body" is used on all surfaces of the wall. |
Units Tab
Specifications | Explained |
|---|---|
Basic units
| One of the selections is activated by clicking the left mouse button on the job. |
Number of households | It determines how many digits will be shown after the comma. The desired number is selected from the list. For example, if 2 is selected, units will be shown as two digits after the comma. If 0 is selected, units will not be shown after the comma. |
fractions
| It determines the precision of the dimension to be made in fractional inch format. In the list, there are options with a sensitivity of 1/2, ¼, 1/8, 1/16, 1/32, 1/34. If "no fraction" is selected, units will appear without fractions. |
Rounding range
| It determines the rounding range of the measurement to be made in meters, centimeters or millimeters. If No rounding is selected, the dimensioning is done at exact value. As the range gets larger, the dimensioning is rounded up to the selected range. |
Show zero unit | If it is not checked, it does not show the zero and point on the left in dimensioning. For example, it measures 0.20 as 20. If marked, the value 0.20 is scaled as 0.20. |
Small fraction writing
| When fractional inch format is selected, determines the fractional part to display in upper / lower case. If it is checked, the fraction is slightly above the integer and small, if not, the fraction is shown the same size next to the integer. |
Show zero fit
| Determines whether 0 is displayed in the 0-foot gauge (less than 1 foot gauge). For example, if it is not checked, it will show a measure of 0 '- 15 "as -15". If marked, it shows as 0'-15 ". |
Show zero inches in the range 0-1
| For example, a dimension inch with a value of 8'-0 1/6 "is in the range 0-1. If the option is not ticked, the value 8'-0 1/6" will be displayed as 8'-. In other words, inch values in the 0-1 range will not be displayed. |
Show absolute zero inch
| Determines whether to show zero inches in the dimension value where inches is absolute zero. For example, a dimension of exactly 10 'will be displayed as 10'-0 "if this option is selected. If not checked, it will be displayed as 10" -. |
Balustrade - Handrail Tab
Specifications | Explained |
|---|---|
Handrail profiles  | Select a handrail from the list of handrails by clicking with the left mouse button. The selected handrail section is displayed on the handrail screen.
|
Railing profiles  | Select a scarecrow from the list of scarecrows by clicking the left mouse button. The selected scarecrow image is displayed on the railing screen. |
Building Components Tab
Add building components: Assigns the building materials defined for the detailed building components metering to the wall object.
Click the Add Building Component button.
The Component Selection dialog will open.
In this dialog, click the folder related to the material from the list on the left. Choose the material you want to use.
Set the parameters on the right.
Click the OK button. The "Component Selection" dialog will be closed. A summary line of the material will appear in the Building Components tab. More than one material assignment can be made to an object.
The parameters in the use section of the component selection dialog are:
No change: The amount of material to be assigned for the object in question is marked when it is desired to be used in the size that was previously specified in the material definition.
Percentage ratio: This line is marked when it is desired to be used with the percentage of the amount previously determined in the material definition as much as the value entered in the "Value 1" line in the same dialog. For example, if the material amount is 70, if the line “Value 1” says 40, it means that 40% of the material amount will be used.
Newly defined: This line is marked to use the amount entered in the "Value 1" line in the same dialog instead of the amount previously determined in the material definition.
Multiplier: This line is marked in order to use the value found at the end of the multiplication of the value entered in the "Value 1" line in the same dialog with the amount previously determined in the material definition.
Fractional: This line is marked so that the amount determined in the material definition before will be used as much as the fraction value formed by the values entered in the "Value 1" and "Value 2" lines in the same dialog. "Value 1" is the denominator "Value 2" is the denominator.
Proportion: It is determined which scale-area, circumference, length etc.-, region-side area, top, edge etc.- the material will be proportioned to. The content of the proportional list box is automatically determined according to the object and the size of the material. For example, a different list will be created if an operation is made for the column, a different list will be created for the library, a different list for the volume, and a different list for the field.
Following are the lines that appear in the proportion list according to the wall object and material size.
Stairs | ||
Measure | Listed | Explanation |
Constant | Independent | The fixed measure used will be used exactly as the amount. |
Length | Independent | It means that the length measure found while defining the material will be used exactly as the length value. |
Output line length | It means that the length of the material will be found by multiplying the length measurement found when defining the material and the length of the exit line of the ladder. | |
Domain | Independent | The area measure found when defining the material will be used exactly as the area of the material. |
Upper area | It means that the area measure found when defining the material will be multiplied by the area of the upper surface of the ladder. | |
Volume | Independent | The volume measure found when defining the material will be used exactly as the volume of the material. |
Number | Independent | The number measure found while defining the material will be used exactly as the material number. |
| Number | The number measure found while defining the material will be used exactly as the material number. |
| Number of berths | The number measure found when defining the material will be used by multiplying the number of rises of the ladder. |