Introduction to contour line operations involved in uploading and creating a parameterized border component for sliding doors:
A single-panel sliding door is primarily composed of a border, door core, and waistline. The construction of the border involves developing the contour sections of each border. This also includes the development of the upper and lower guide rails for the sliding door using similar techniques. Therefore, it is crucial to understand the various parameters of these contour sections.
In the example diagram, the vertical frame section is shown. The vertical frame is divided into door core notches and horizontal frame notches.
1.2 The placement direction of the vertical frame outline on the CAD drawing is as shown in the above figure:
1.3 Door core notch: Used to calculate the dimensions of the door core and define its position.
Horizontal frame notch: Used to calculate the dimensions of the horizontal frame and define its position.
Calling method for the door core notch:
- X-axis direction: `#SK.b1.x`
- Y-axis direction: `#SK.b1.y`
Calling method for the horizontal frame notch:
- X-axis direction: `#SK.b2.x`
- Y-axis direction: `#SK.b2.y`
1.4 In the editor, the parameters representing the size of the vertical frame outline are as follows:
- `#SK.d` represents the thickness of the vertical frame outline.
- `#SK.w` represents the width of the vertical frame outline.
These variables are system defaults and do not require creating new ones.
1.5 Upload the vertical frame outline by selecting the completed vertical frame outline file. The method for creating the outline is described in the outline line production requirements.
1.6 When uploading the vertical frame, select the line profile as the vertical frame outline. Fill in the corresponding values for the door core notch and horizontal frame notch by measuring them.
Door core notch: `#SK.b1.x`, `#SK.b1.y`
Horizontal frame notch: `#SK.b2.x`, `#SK.b2.y`
Note: These parameters represent the actual dimensions measured on the drawing. Different profiles may have different corresponding notch parameters.
2.1 The upper crossbar only has core checkpoints.
2.2 The placement direction of the upper crossbar outline on the CAD drawing is as shown in the figure
2.3 Core Checkpoint: It is used to calculate the dimensions of the core and define its position.
The method of calling the core checkpoint is as follows:
In the X-axis direction: #SHK.b1.x
In the Y-axis direction: #SHK.b1.y
2.4 The parameters in the editor representing the size of the upper crossbar outline are as follows:
- #SHK.d represents the thickness of the upper crossbar outline.
- #SHK.w represents the width of the upper crossbar outline.
2.5 When uploading the upper crossbar contour, select the completed upper crossbar outline (the method of creating the outline is described in the contour production requirements).
2.6 When uploading the upper crossbar, select the line type as "Upper Crossbar contour" and fill in the corresponding checkpoint parameter values by measurement.
Checkpoint parameters: #SHK.b1.x, #SHK.b1.y
3.1 As shown in the example diagram, the lower crossbar section consists only of core checkpoints. The checkpoints are used to calculate the dimensions of the core and define its position. The checkpoint parameters are set on each border of the lower crossbar.
3.2 The placement direction of the lower horizontal outline on the CAD drawing is shown in the figure
3.3 Core Checkpoint: It is used to calculate the dimensions of the core and define its position.
In the X-axis direction: #XHK.b1.x
In the Y-axis direction: #XHK.b1.y
3.4 The parameters in the editor representing the size of the lower crossbar outline are as follows:
- #XHK.d represents the thickness of the lower crossbar outline.
- #XHK.w represents the width of the lower crossbar outline.
3.5 When uploading the lower crossbar outline, select the completed lower crossbar outline (the method of creating the outline is described in the outline production requirements).
3.6 When uploading the lower crossbar, fill in the corresponding values for the core checkpoint and select the line type as "Lower Crossbar contour."
Checkpoint parameters: #XHK.b1.x, #XHK.b1.y
4.1 As shown in the example diagram, the middle crossbar section is divided into upper and lower checkpoints. These checkpoints are used to calculate the dimensions of the core and define its position. The checkpoint parameters are set on each border of the middle crossbar.
4.2 The placement direction of the outline of the middle horizontal frame on the CAD drawing is shown as follows:
4.3 Upper and lower checkpoints: Used to calculate the dimensions of the door core and define its position.
The calling method for the upper checkpoint on the transverse frame is as follows:
In the X-axis direction: #ZHK.b1.x
In the Y-axis direction: #ZHK.b1.y
The calling method for the lower checkpoint on the transverse frame is as follows:
In the X-axis direction: #ZHK.b2.x
In the Y-axis direction: #ZHK.b2.y
4.4 Parameters representing the size and shape of the transverse frame outline in the editor:
#ZHK.d represents the thickness of the transverse frame outline,
#ZHK.w represents the width of the transverse frame outline.
4.5 To upload the transverse frame outline, select the completed transverse frame outline (the method for creating the outline is explained in the contour line production requirements).
4.6 When uploading the transverse frame, fill in the corresponding values for the upper and lower checkpoints, and select the line type as "transverse outline."
Upper checkpoint: #ZHK.b1.x, #ZHK.b1.y
Lower checkpoint: #ZHK.b2.x, #ZHK.b2.y
5.1 As shown in the diagram, the upper sliding track has a front checkpoint and a rear checkpoint (checkpoint: determines the position of the sliding door).
5.2 The placement direction of the upper sliding track outline on the CAD drawing is depicted in the diagram on the right.
5.3 The front and rear checkpoint dimensions in the X direction: Used to allocate space for the positioning of the pulleys. Please fill in the actual dimensions based on the size of the pulleys.
The front and rear checkpoint dimensions in the Y direction: Used to determine the position of the generated sliding door in the depth direction.
5.4 To upload the outline of the upper sliding track, select the completed outline of the upper sliding track (the method for creating the outline is explained in the contour line production requirements).
5.5 When uploading the upper sliding track, fill in the corresponding values for the front and rear checkpoints, and select the line type as "upper sliding track outline."
6.1 As shown in the diagram, the lower sliding track has a front checkpoint and a rear checkpoint (checkpoint: determines the position of the sliding door).
6.2 The placement direction of the glide rail outline on the CAD drawing is shown as follows:
6.3 The front and rear checkpoint dimensions in the X direction: Used to allocate space for the positioning of the pulleys. Please fill in the actual dimensions based on the size of the pulleys.
6.4 To upload the outline of the lower sliding track, select the completed outline of the lower sliding track (the method for creating the outline is explained in the contour line production requirements).
6.5 When uploading the lower sliding track, fill in the corresponding values for the front and rear checkpoints, and select the line type as "lower sliding track outline."
What went wrong?
This will change the display language on this website.
We use cookies and similar tools to bring you a smooth and convenient experience on our site. To learn more about how we use cookies, view our Statement on Cookies here.
Along with User Agreement and Privacy Policy provided by Coohom Inc. and its affiliates (“we”, “us” or “Coohom Group”), this Notice provides you (or “user”) with information about the cookies that are used by the features and services of Coohom official website or Coohom Platform (“Coohom Platform”). This Notice will be reviewed from time to time to ensure that its content is kept up-to-date. If any changes are made, we will publish the latest version of the Notice here. When we make significant changes, we will notify you of the change the next time you visit Coohom Platform or by other means of communication.
When you visit Coohom Platform, the site asks your browser to store a small piece of data (text file) called a cookie on your device in order to evaluate the performance of the site. We also use third-party cookies, which are cookies from a domain different than the domain of Coohom Platform you are visiting, for marketing efforts.
We use the following categories of cookies:
Strictly necessary cookies are necessary for Coohom Platform to function and cannot be switched off in our systems. They are usually only set in response to actions made by you which amount to a request for services, such as setting your privacy preferences, logging in or filling in forms. You can set your browser to block or alert you about these cookies, but that will cause some parts of Coohom Platform to not work.
Performance cookies allow us to count visits and traffic sources so we can measure and improve the performance of our site.They help us to know which pages are the most and least popular and see how visitors move around the site.If you do not allow these cookies we will not know when you have visited our site and will not be able to monitor its performance.
We also cooperate with third-parties that deploy cookies when users interact with marketing communications. Marketing cookies collect personal information such as your IP address and clicks. Collected information is used to evaluate the effectiveness of our marketing campaigns or to provide better targeting for marketing. We do not always have control over those cookies.
The "Cookie Settings" can be utilized to customize your cookie preferences. The "Cookie Settings" will record when you have consented to or rejected our Notice and will ask for consent once a year to ensure users stay up-to-date with changes to our Notice. All the performance cookies and marketing cookies are controlled by the "Cookie Settings". You can also access the “Cookie Settings” anytime from the link in the footer of Coohom Platform.
All of the cookies used on Coohom Platform, on third-party websites and through emails can be enabled or disabled through your browser. To control cookies through your browser, follow the instructions usually located within the “Help”, “Tools” or “Edit” menus in your browser. Please note that disabling a cookie or category of cookies does not delete the cookie from your browser unless manually completed through your browser function.
Your data collected from cookies can be deleted. If cookies are deleted, the information collected prior to the preference change may still be used. However, we will stop using the disabled cookie to collect any further information from your user experience. For marketing cookies, when a user opts out of tracking, a new cookie is placed to prevent users from being tracked.
You can set your browser to block strictly necessary cookies, but that will cause some parts of Coohom Platform to not work.
You can accept or refuse the use of performance cookies or marketing cookies at any time. If you choose to reject the use of performance cookies or marketing cookies, you will still be able to use Coohom Platform, and your use of all the features and areas of Coohom Platform will not be limited.
We may update this Notice from time to time or for other operational, legal or regulatory reasons to make changes in the cookies we use. Therefore, please re-read this Notice periodically to learn about our use of cookies and related technologies. The date at the top of this Notice indicates when it was last updated.
If you have any questions about our use of cookies, please feel free to contact us via email at support@coohom.com.
We will respond to your questions, comments or suggestions within 30 days after we receive them and verify your user identity.