Movable frame
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Lyna.Ferhi (Talk | contribs) (Created page with '===Chamber=== This is the overall value measured perpendicular to the thickness, excluding only the value of the stop flange and the glass flange. </gallery> File:cameramobile.…') |
Lyna.Ferhi (Talk | contribs) |
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| - | ===Chamber=== | + | ===Chamber=== |
| - | This is the overall value measured perpendicular to the thickness, excluding only | + | This is the overall clearance value measured perpendicular to the thickness, excluding only the stop flange and the glass flange. |
| - | + | ||
| - | + | ||
| - | + | ||
| - | + | ||
| - | + | <gallery> | |
| - | < | + | File:cameramobile.png|Example of chamber value of a movable frame profile |
| - | File: | + | File:cameramobile2.png|Example of chamber value of a movable frame profile with inserted glass or shutter |
| - | </gallery> | + | </gallery> |
| - | + | If it is a '''sliding movable frame''', the chamber value is given by the total height excluding the glass stop flange. | |
| - | + | <gallery> | |
| - | < | + | File:scorrevole.png|Example of chamber value of a sliding movable frame profile |
| - | File: | + | </gallery> |
| - | </gallery> | + | |
| - | === | + | ===Stop flange=== |
| - | This is the length of the | + | This is the length of the stop flange. |
| - | <gallery> | + | <gallery> |
| - | File: | + | File:alettamobile.png|Example of a stop flange of a movable frame |
| - | </gallery> | + | </gallery> |
| - | ===Glass flange | + | ===Glass flange=== |
| - | This is the | + | This is the length of the glass stop flange. |
| - | <gallery> | + | <gallery> |
| - | File: | + | File:alettamobile2.png|Example of a glass flange of a movable frame |
| - | </gallery> | + | </gallery> |
| - | === | + | ===Glass flange thickness=== |
| - | This is the | + | This is the thickness of the glass stop flange in the area where the gasket must be installed. |
| + | <gallery> | ||
| + | File:alettamobile3.png|Example of glass flange thickness | ||
| + | </gallery> | ||
| - | + | ===Tooth=== | |
| - | + | This is the height of the tooth, which affects the end connections. | |
| - | + | ||
| - | + | ||
| - | + | {{NB|When calculating the cut length of a transom or mullion, Opera also considers the end-connection operation. For this purpose, the program takes into account the height of the tooth of the profile to which it must be connected.}} | |
| - | + | ||
| - | + | ||
| - | + | ||
| - | + | <gallery> | |
| - | + | File:alettamobile4.png|Example of a tooth in a movable frame profile | |
| - | < | + | </gallery> |
| - | File: | + | |
| - | </gallery> | + | |
| - | + | If it is an inserted-glass profile, the tooth value will correspond to the negative value of the glass flange height. | |
| + | <gallery> | ||
| + | File:alettamobile5.png|Example of a tooth in a movable frame profile with inserted glass, value -22 | ||
| + | </gallery> | ||
| - | === | + | ===Thickness=== |
| - | This is the | + | This is the thickness of the profile measured on the glass housing side. |
| - | < | + | <gallery> |
| - | File: | + | File:scorrevole2.png|Examples of profile thickness of a movable frame |
| - | </gallery> | + | </gallery> |
| - | + | In the case of an inserted-glass profile, this refers to the thickness of the glass housing. | |
| - | + | ||
| - | + | ||
| - | + | ||
| - | === | + | ===Interc (Intercavity)=== |
| + | This is the distance between one profile and another, measured from the beginning of one chamber to the beginning of the other. | ||
| + | <gallery> | ||
| + | File:intercapedine2.png|Example of intercavity value between a fixed frame and a movable frame | ||
| + | </gallery> | ||
| + | |||
| + | If it is a '''sliding movable frame''', this value must be negative and will correspond to the entry dimension into the fixed frame. | ||
| + | <gallery> | ||
| + | File:scorrevole3.png|Example of intercavity value between a fixed frame and a sliding movable frame | ||
| + | </gallery> | ||
| + | |||
| + | ===Glass interspace=== | ||
This is the space that must remain between the glass and the profile. | This is the space that must remain between the glass and the profile. | ||
| - | {{NB|This | + | {{NB|This usually corresponds to the clearance value of the spacer shims. This value is also considered when calculating the filling dimensions. However, it is important to know that there is a hierarchy of precedence that the program uses when checking the glass interspace value: the first value examined is the one set on the filling; if this is 0 (zero), the one set on the glazing bead is checked; if that is also 0 (zero), the one set on the frame profile (fixed or sash) is finally checked.}} |
===Template=== | ===Template=== | ||
| - | + | Indicates the template code. | |
| - | {{NB|There are three codes: Z, L, T. | + | {{NB|There are three codes: Z, L, T. A correct template code setting allows the program to determine if the node being created is suitable for internal or external openings. In the case of a shutter profile, the template must be set to T in order to display the external opening type.}} |
| - | {{BR}} | + | {{BR}} |
===Header angle=== | ===Header angle=== | ||
| - | Angle formed by profiles meeting the fixed frame. | + | Angle formed by the profiles meeting the fixed frame. |
| - | {{BR}} | + | {{BR}} |
===Separator=== | ===Separator=== | ||
| - | + | Sets the profile as a separator. | |
| - | {{BR}} | + | {{BR}} |
===Overlap distance=== | ===Overlap distance=== | ||
| - | Field used to | + | Field used to set the overlap distance between the frame and the sash. |
| - | {{BR}} | + | {{BR}} |
===Coplanarity=== | ===Coplanarity=== | ||
| - | The | + | The function of this box is directed to the creation of nodes. For profiles that have coplanarity, such as between the frame and the sash, by entering the value in this box, when the program detects the profile image in the Node Creation window, it takes this value into account, positioning the sections with the coplanarity value. |
Latest revision as of 20:00, 18 September 2025
Contents |
Chamber
This is the overall clearance value measured perpendicular to the thickness, excluding only the stop flange and the glass flange.
Cameramobile.png
Example of chamber value of a movable frame profile |
Cameramobile2.png
Example of chamber value of a movable frame profile with inserted glass or shutter |
If it is a sliding movable frame, the chamber value is given by the total height excluding the glass stop flange.
Scorrevole.png
Example of chamber value of a sliding movable frame profile |
Stop flange
This is the length of the stop flange.
Alettamobile.png
Example of a stop flange of a movable frame |
Glass flange
This is the length of the glass stop flange.
Alettamobile2.png
Example of a glass flange of a movable frame |
Glass flange thickness
This is the thickness of the glass stop flange in the area where the gasket must be installed.
Alettamobile3.png
Example of glass flange thickness |
Tooth
This is the height of the tooth, which affects the end connections.
N.B: When calculating the cut length of a transom or mullion, Opera also considers the end-connection operation. For this purpose, the program takes into account the height of the tooth of the profile to which it must be connected.Alettamobile4.png
Example of a tooth in a movable frame profile |
If it is an inserted-glass profile, the tooth value will correspond to the negative value of the glass flange height.
Alettamobile5.png
Example of a tooth in a movable frame profile with inserted glass, value -22 |
Thickness
This is the thickness of the profile measured on the glass housing side.
Scorrevole2.png
Examples of profile thickness of a movable frame |
In the case of an inserted-glass profile, this refers to the thickness of the glass housing.
Interc (Intercavity)
This is the distance between one profile and another, measured from the beginning of one chamber to the beginning of the other.
Intercapedine2.png
Example of intercavity value between a fixed frame and a movable frame |
If it is a sliding movable frame, this value must be negative and will correspond to the entry dimension into the fixed frame.
Scorrevole3.png
Example of intercavity value between a fixed frame and a sliding movable frame |
Glass interspace
This is the space that must remain between the glass and the profile.
N.B: This usually corresponds to the clearance value of the spacer shims. This value is also considered when calculating the filling dimensions. However, it is important to know that there is a hierarchy of precedence that the program uses when checking the glass interspace value: the first value examined is the one set on the filling; if this is 0 (zero), the one set on the glazing bead is checked; if that is also 0 (zero), the one set on the frame profile (fixed or sash) is finally checked.Template
Indicates the template code.
N.B: There are three codes: Z, L, T. A correct template code setting allows the program to determine if the node being created is suitable for internal or external openings. In the case of a shutter profile, the template must be set to T in order to display the external opening type.
Header angle
Angle formed by the profiles meeting the fixed frame.
Separator
Sets the profile as a separator.
Overlap distance
Field used to set the overlap distance between the frame and the sash.
Coplanarity
The function of this box is directed to the creation of nodes. For profiles that have coplanarity, such as between the frame and the sash, by entering the value in this box, when the program detects the profile image in the Node Creation window, it takes this value into account, positioning the sections with the coplanarity value.
