Quick Design Libraries
WOOD
polyboard
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Contents
Legal Disclaimers 2
Introduction 4
Standard Naming 5
3 Types of Users 6
1. You want to design a project and use an approved supplier 6
2. You want to build the project yourself 7
3. You are an approved supplier or manufacturer 7
Installation 9
Downloading 9
How to activate Quick Design in Polyboard 9
Materials Libraries 10
1. Panels 11
2. Edges 14
3. Bars 16
4. Panel Structures 21
5. Using Quick Design Panels in Structures 22
Hardware Libraries 24
1. Fittings/Hardware 24
2. Placement Rules 27
3. Single panel fittings 32
Manufacturing Methods Libraries 34
Sub-methods Libraries 35
1. Box Full 36
2. Materials Style 41
3. Edges Style 42
4. Divisions 45
5. Fittings Links or Hardware Sub-methods 48
6. Regular Drillings 50
7. Doors 54
7. Drawers 55
Introduction
Polyboard is packed full of very powerful features and as usual with most professional software many of these features are unknown and unexploited by 80% of its users. To help you use power of Polyboard we have set up Quick Design Libraries.
These libraries are a set of different materials, hardware and placement rules that will help you change the visual aspect and the way you assemble your project quickly and easily. To fully benefit from these new libraries you will have to know how to use them. This knowledge is called the Quick Design Method.
The following document will explain the libraries and the method.
Please note: if you just want to design a project to send to an approved supplier to cut and machine, simply install the libraries and start designing using the Quick Design Materials. See page 6, section ‘3 Types of User’. You do not need information on manufacturing methods
For more information, watch the Quick Design videos on the Polyboard download page of our website here.
The Quick Design libraries have been set up with 3 objec-tives in mind:
1. To help a novice use Polyboard as a design tool to set up cabinets and projects quickly without having to fully understand the intricacies of the way the project will be built.
2. As an introduction to using and making Manufacturing Methods (these methods are like a style sheet that auto-matically sets up the way you make a project).
3. To create a framework for using and sharing library elements.
Standard Naming
We have organised the Quick Design Libraries using a stan-dard naming procedure to enable users to share library elements.
We want to develop a standard so that libraries can be easily understood and used by everyone.
This manual explains how we have named the different elements.
Our objectives are to have names that:
● Are easily read and recognised by everyone for what they are.
● Are easy to sort and organise into groups.
● Fit into the Polyboard name fields.
When possible, the naming convention used follows theses principles:
For Materials
● sort code or sort name,
● dash (-),
● second sort code or name,
● slash (/),
● characteristic of the first element,
● dash(-),
● value of the last characteristic
For example:
0-bar/010
● 0 puts this element to the top of sorted lists
● bar gives the name of the element
● 010 gives the type of element 0-bar/oak-25/upper rails
● The same element in 25mm oak, to be used for upper rails
For Sub-Methods
The same convention is used for Sub-Methods with a double slash (//) to separate element parameters when necessary, as shown below:
Blum/hin-000//cam//dow-008//for kitchens
● Blum is the sort code and name
● hin-000 is the type (hinge) and reference number
● // new element
● cam is the next type of hardware with no reference (by default a standard element)
● // new element
● dow-008 is a dowel of 8mm
Note that Quick Design names are set up to help manage and share a large range of library elements.
As each element can contain a large number of parameters, it’s impossible to describe all the parameters in its name. For this reason we have given an abbreviated code to significant parameters.
If you don’t understand the coding, this can make the name seem at first glance obscure. If you are naming elements for use by people who do not understand the code you can just change the name.
These libraries propose an alternative way of using Polyboard that we hope you will find useful and fun. Having been developed recently, please consider them as a beta version that will inevitably need tweaking and improving.
So don’t hesitate to send us your suggestions and remarks. Also feel free to ask if you have new elements that you wish us to include in the libraries.
3 Types of Users
This document explains how to use the Quick Design Libraries and Method.
According to what you are trying to do with Polyboard
certain parts of this document will be more or less useful to you.
Here is a classification of the different user types and tasks you may or may not want to accomplish and the different parts of this manual you’ll need to read.
1 You want to design a project and use an
approved supplier
If you are using Polyboard to design your projects with the free version and want to process your project via an approved supplier you don’t need to understand how to set up your project for manufacturing.
You can just use the Quick Design Panels Materials libraries to design your project.
Send the design to your supplier who will then set up the assembly and hardware according to their own
manufac-2 You want to build the project yourself
To build your project in a home workshop will require at least being able to change the Quick Design materials to real materials.
For this you will need to understand how to change the Default materials method to a buildable materials method. Knowledge in hardware placement is not usually neces-sary for a home build as you’ll probably be assembling and adding hardware by hand drilling with biscuit jointers, dowels, dominos, etc..
Read all of the Materials Libraries section from page 10. And watch the Quick Design Contruction Materials video.
3 You are an approved supplier or
manufacturer
If you are an approved supplier or manufacturer processing files sent to you by designers using the Quick Design
Libraries you’ll need to process these projects so that they fit your own manufacturing methods.
This will require that you understand well how the Quick Design Method works.
Processing a Quick Design file to be manufacturable will require 2 steps:
a. Applying the real materials
The Quick Design project that you receive from a customer will be organised using Quick Design materials that the customer has set up to give the visual aspect required. These panels must be associated to a real panel that you have in stock or can buy from your wood yard or materials supplier.
If the customer has applied a texture from the Quick Design Manufactured Panels library the reference of the real mate-rial will be written in the ‘texture’ field of the matemate-rial.
The client/designer may also have added a material refer-ence to the Description field.
It will be for you to either use these references or discuss with the customer a best fit substitute.
If the customer has just added a colour, it will be for you to get a best fit from the materials you have available.
Note: to display the client/designer’s original design in your
Polyboard, you must have a materials library activated that does not contain the Quick Design Materials.
Contact us for more information on how to set up your libraries as an approved supplier.
If the customer has added an image file you will have to discuss with him the way he wants to build the part.
For instance, in the case of façade components it will be necessary to propose different pre-manufactured compo-nent or offer to make them to the design specifications. In all cases it will be preferable to get validation of the final project before manufacturing.
It is also possible to ask the customer to use only the specific materials you have in your own library.
For this send us your texture library which we will make available for downloading.
In all cases it will be necessary to adjust the pricing
according to the actual up to date prices of your suppliers.
b. Applying the manufacturing method
To machine all the parts with the correct assembly details and hardware you will have to apply a manufacturing method that complies with your machining specifications. You can use or adjust our standard Quick Design Methods or create your own as needed.
In both cases you will have to adjust the pricing on hard-ware and machining to reflect your company.
If you need help setting up your specific manufacturing methods don’t hesitate to contact us.
Installation
To use our Quick Design Method you’ll need to install the Quick Design Libraries on your computer with Polyboard pointing to them. This requires the following operations: downloading the files, copying them to the correct folders, uncompressing and then setting them up with Polyboard.
Note: you will automatically get the Quick Design
Libraries (excluding Textures) when you download and install Polyboard from our website.
However, due to a maximum installer file size limit, the Quick Design Textures library will not be installed. To get this as well, go to the Polyboard download page and install only the Textures library.
If you have previously installed Polyboard without the libraries, please install the Quick Design Materials and Methods libraries as well.
Downloading
The first thing you have to do is to download the compressed library files to your computer.
Once on your computer, copy each file into a specific folder and decompress them.
You must use these Polyboard folders to install your libraries:
Pb-libs into c:\ProgramData\Boole&Partners\Polyboard 5 Pb-material into c:\ProgramData\Boole&Partners\materials Pb-textures into c:\ProgramData\Boole&Partners\Textures\ Polyboard 5
Note that if you can’t see the ProgramData folder it’s prob-ably because it’s hidden by Windows.
In this case go to the Control Panel and use the Folder Options to display hidden folders and files.
For details, watch the Installing Quick Design Libraries video.
Tip: if you want to share your library files between several
computers and Polyboard installations, decompress the files into a DropBox folder.
When activating point Polyboard to the DropBox folder and all updates made on one computer will be copied to all the DropBox folders on other computers.
How to activate Quick Design in Polyboard
Once the libraries are installed on your hard disk you have to point Polyboard towards the folders into which you have copied the files.
Materials Libraries
The Quick Design Materials Libraries are set up to help anyone with a basic knowledge of Polyboard to quickly design and play with different design options ‘on the fly’. These libraries not only make it easy to quickly modify the appearance of single cabinets in the ‘cabinet edit’ mode but will enable you to change the visual aspect of entire proj-ects without having to modify each individual cabinet that makes up your design.
Each materials library...Panels, Edging, Bars and Panel
Structures work together with their specific sub-method to create a Quick Design Method.
Here’s a quick explanation of how the Materials libraries are organised with their sub-methods.
In general Polyboard materials are set up and assigned to specific parts.
Changing the design aspect of a cabinet requires either
going into the properties of each part and applying another material or creating a sub-method and applying it to the cabinet.
navigating the library cumbersome, as some panels may only be used for one project or only used to display a design option.
● Changing the global design of projects made of several cabinets requires changing each individual cabinet.
● Creating designs using image files to decorate parts is not easily manageable.
To overcome these problems, the Quick Design materials libraries propose another work flow organisation, the Quick Design Method.
Using a specific manufacturing sub-method, a specific material is assigned to each part of a cabinet.
To change the aspect of the part requires simply changing the material.
This makes it possible to:
● Change globally the aspect of a project without having to change individual cabinets.
● Apply image files to specific parts to embellish the design.
1 Panels
The Panels Materials library is the main design library.
The Quick Design Method uses a combina-tion of the Panels Materials library and an associated sub-method.
When you display the list of panels materials, you can see that the libraries are organised into 2 main sections:
1. The Quick Design section, materials named ‘000-xxxx’.
2. The Generic Materials section.
We have assigned a specific sort number to the materials description.
To display the list of materials sorted by type just click the ‘Material’ title.
According to whether the list is sorted
ascending or descending, the materials will be sorted by groups with the Quick Design materials either at the top or at the bottom of the list.
Quick Design Materials
These materials are all named ‘000-name of part’.
If you have started your design using the Quick Design default materials method each part of your cabinet will be made from the appropriate Quick Design ‘000-xxx’ material. This means that you can change the visual aspect of your cabinet simply by changing the material aspect associated with the part.
If you haven’t used the Quick Design Materials sub-method to build your cabinet, it’s very quick to change your cabinet into a Quick Design cabinet by applying the Quick Design Materials ‘default’ sub-method. Just go to Libraries >
Sub-methods > Materials Styles.
Select the default method and apply it to your cabinet. All the parts will now be assigned the appropriate Quick Design material, and can be edited by changing the mate-rial’s aspect.
See the Changing your Design video for details.
If you are designing a project to be sent to an approved
Generic Materials
The Quick Design Materials will enable you to play around with the design aspects of your cabinets and projects.
However they will not produce the correct cutting lists.
As each part has its own material, Polyboard will write the cutting lists with a bunch of different materials.
To make Polyboard correctly organise the cutting lists we have included a set of ‘generic materials’.
How to use Generic Materials
Once your design is set up with the Quick Design Materials to be visually appealing, we must transform the quick
design materials into ‘real’ materials that can be listed and cut.
The idea of the generic materials is to assign a type of mate-rial to a set of parts rather than individual parts.
A simple example would be a design that has a melamine carcass and coloured facades using a manufactured board from a specific supplier like Egger.
Now your project is set up using the generic materials, the main carcass in ‘mela 0190’, drawer inners ‘mela 0160’ and façade elements in ‘egger 0190’.
To change the aspect of the carcass you must now change the generic material ‘mela 0190’ and to change the façade material ‘egger 0190’.
Polyboard will now produce a cutting list with 4 material types:
1. Mela 0190 (carcass)
2. Mela 0160 (drawer inners)
3. Mela 0080 (backs and drawer bottoms)
4. Egger 0190 (façade elements)
If you know the real materials for each type you can just substitute the real material references for the generic mate-rial in the workshop.
If you want to add a reference that lists the real name of the material just type the reference into the Description field. The Quick Design Libraries contain a list of generic materials that correspond to the texture libraries.
If you are working with a specific panels supplier you can add Generic Material names with the supplier’s name.
The naming convention used is: ‘Supplier name 0160’
Where the code represents the thickness in 4 digits.
Using 4 digits will enable you sort the list and insert varia-tions of a thickness.
For instance ‘egger 0160’ represents a 16mm Egger board in one colour, whereas ‘0161’ will represent the same thickness in another colour.
The number will sort the panels into organised groups when you click the ‘Materials’ title bar.
Note: Quick Design Materials also contain a series of
mate-rials with names starting ‘ZZ-’. These are matemate-rials that are used for display purposes only, their price is always ‘0’ and they are meant to be ignored in the cutting lists.
You can use these materials for creating items and accesso-ries that will not be counted in your manufacturing.
Have a look at the Quick Design Construction Materials
video for a detailed explanation of these points.
There is today an enormous and constantly growing supply of different manufactured panels.
As a result, customers/designers demand highly person-alised projects with specific materials.
It would be difficult to maintain and manage a materials library that covers all of the possible panels on the market. Using generic materials and replacing them with a specific panel when necessary is a simple way of offering your
customers new and original designs while keeping your offers in line with the panel manufacturers’ constantly changing offers.
Of course if you always use the same panels you can easily change the generic panel names and characteristics to the panels you use.
2 Edges
Edging is the material that we glue onto the edge of a panel to cover the ‘edge’ end grain.
The Quick Design Edges Library uses only 2 types of edging:
These edgings are associated with the 2 edging sub-methods, ‘0-edging 010/all-010’ and ‘0-edging/cab-010/fac020’.
By default (the sub-method ‘défaut’) the cabinets built with Quick Design have no edging.
To apply the 0-edging material to all parts use the ‘0-edging/ all-010’ style.
To apply ‘0-edging 01’ to the carcass parts and ‘0-edging 02‘ to the façade use the ‘0-edging/cab-010/fac-020’ style.
As with the panels just change the ‘0-edging 010’ or ‘...020’ edging material to change the aspect of your project.
Have a look at the Using Quick Design Edging video.
You can add more edging and sub-methods as necessary. Just duplicate and edit the existing ones.
See the How to edit Quick Design Edging styles video. As projects rarely have lots of different types of edging, it might be OK just knowing that the Quick Design Edging 01,02,03, etc corresponds to a specific material for each project.
To have a specific reference display in the cutting lists, add the reference to the edging name or duplicate an existing method and change the edging name.
3 Bars
Bars are the material that you can use to build framed panels. Here is a cabinet with a frame and panel door:
Bars materials have a specific section and are sold in lengths. Quick Design Bars work in a similar way to edging.
If you make a framed panel you can quickly change the width and thickness of all the frames simply by changing the width and thickness of the generic Quick Design Bars.
Bar materials are associated with the ‘Assembled Pieces’ sub-methods library and the ‘Panel Structures’ library.
These libraries are essentially used to build cabinets with a frame and panel structure, but they can also be used for a lot of other designs that need to assemble panels and bar materials.
The ‘Assembled Structures’ sub-method will apply globally a defined structure to a cabinet.
The sub-method allows you to define a specific material for the frame and an independent material for the upper rail (or cross bar).
However Polyboard also has a separate ‘Panels Structure’ library. Adding parts to this library is done by editing and creating structures in the Properties menu.
Editing Assembled parts using the properties menu has
more options than using the ‘Assembled Pieces’ sub-method and it is possible to define separate materials for each indi-vidual part of a framed panel.
The Quick Design Bars libraries are set up with 3 Quick Design Bars.
We suggest that the 3 bar types be used as follows:
1. ‘0-bar/010’ for general framing.
2. ‘0-bar/010’ and ‘0-bar/020’ when separate types are needed for uprights (styles) and cross bars (rails). For example if you need the rails wider than the styles.
3. ‘0-bar/030’ reserved for drawer fronts.
Note that unlike the other materials, the Bars Materials library has a ‘Quality’ field.
You can use both the Description and Quality field to add a materials reference without having to modify the materials name.
The Bars Materials library works with the following ‘Assembles Pieces’ Sub-Methods:
● ‘0-frame/all-010’ will create all frames with ‘0-bar/010’ material.
● ‘0-frame/all-010/ucb-020’ will create the uprights and lower rails in ‘0-bar 01’ and the upper cross bar in ‘0-bar/02’.
We have added a curve to the cross bar as a default example but of course you can change as necessary.
● ‘0-frame/all-03’ will create all frames in ‘0-bar 030’. We suggest you use this specifically for drawer fronts.
● ‘0-frame/all-010/draw-030/op-020” will build doors in 0-bar 010, drawers in 0-bar 030 and other panels in 0-bar 020.
As with all sub-methods, applying to a cabinet will change all assembled panels.
Use the ‘Panel Structures’ library to apply different structures to the individual parts.
4 Panel Structures
This library enables you to stock predefined frame and panel structures and apply them to a panel.
The library cannot be modified directly. There is no ‘+’ button in the dialogue box and editing the library is done using the ‘Properties’ menu.
To add structures to the library use the Properties > Structure > Assembly menu.
In the Structures menu:
● Use the ‘Assembly’ option to edit the default assembly method
● Use the ‘Add Structure’ option to add the edited struc-ture to the ‘Panel Strucstruc-tures’ library.
● Use the ‘Apply Library Structure’ option to apply a
structure already stocked in the library to your selected panel.
We have added 3 structures to the library that work with the Quick Design Bars materials library.
Unlike using a sub-method, applying the library element to a panel only changes one panel at a time.
To apply the same structure to another panel use the ‘copy/ paste’ commands.
Note: you can not apply a structure if a panel already has a structure applied.
You must use the ‘delete structure’ command to delete the existing structure first.
● ‘0-frame/all-01’ will make all the frame using ‘0-bar 01’. This is the same as if you are using the ‘0-frame all-01’ sub-method, except that the structure will be applied only to the selected panel and not the whole cabinet.
● ‘0-frame/all-010/ucb-02’ will make all the frames with styles (uprights) and rails (cross bars) in ‘0-bar 01’ except the upper rail in ‘0-bar 02’.
● ‘0-frame/all-03’ will make all the frame in ‘0-bar 03’.
● ‘0-frame/ur-01/cb-02’ will make the uprights in ‘0-bar 01’ and the cross bars in ‘0-bar 02’.
Of course you can edit the styles and add your own as needed.
Note that all the standard quick Design frames use a 30x8mm mortise and tenon with the ‘140 framed panels’ material grooved 10mm into the frame.
Note also that it’s best to set up the final Materials Style before adding the framed panels.
Changing the style after can create some strange effects.
Note also that the panels always use ‘140 framed panels’ material and you will have to create a specific sub-method to change them if you need them in another material.
Watch the Using Quick Design Panels Structures Libraries
video for more details.
5 Other Quick Design Panels Structures
The structures 0-rail/010/x2 …..0-sty/010/x3 create panels with rails (horizontal bars) and styles (vertical bars).
These methods set up a number of vertical or horizontal bars.
The code used is the following: 0-rail/010/x3
Where:
● 0-rail = horizontal or vertical (styles) bars
● /010 = the Quick Design material used
● /x2 = the number of bars
And eventually if a panel material is used
Here is an example.
The aspect and thickness of the rails and styles will vary according to the specifications of the material 000-default, but the width will always remain the same.
Hardware Libraries
1 Fittings/Hardware
In Polyboard hardware elements or fittings are a series of holes or grooves that can be set up as a single unit and applied to ‘connect’ 2 panels.
The Quick Design libraries contain 2 types of elements that can be used according to the circumstances:
a. Fixed dimension hardware
These elements are set up as specified by the hardware manufacturer.
Note that one Polyboard hardware fitting can be composed of several hardware elements.
There is an infinite variety of hardware and hardware combi-nations and it’s impossible for us to create and manage an exhaustive library.
We propose to add elements to the library as needed using a naming convention as follows:
● Azur/ : optional sort name or code to suit your company
● Blum : 4 to 6 characters for the brand name or type, (optional -reference, eg: blum-253)
● /hin : 3 characters for the hardware type . hin=hinge, dsl=draw slider, peg=shelf peg, dow=dowel, scr=screw, ten=tenon, etc…
● -000 : 3 numbers for a hardware reference
● /app : 3 characters for classification, app=applied,
bin=built-in, ext=exterior, int=interior, op=over passing panel, up=under passing panel
● /000-000 : main drilling dimensions
● /000-000 : other drilling parameters
● /x2 : number of previous elements
● //dow-008 : next hardware element
● //end : extra description
For instance:
Blum/hing-626/app/35-23//snap
● Blum hinge for applied (overlaid) door, ref: 626, hole diameter 35mm at 23mm from edge, with snap close. Minifix15-p19/x2//dow-08//ext
● Minifix cam, diameter 15mm for 19mm panels, drill for 2, with an 8mm dowel. Access from the outside of the cabinet.
The hardware elements supplied in the Quick Design Libraries have been limited to single elements.
Composite Fittings made of several elements like dowel and screw, cam and dowels, etc. can be composed and used for specific applications, but to maintain and simplify hardware management we suggest you apply several simple fittings to an assembly, and use different rules if necessary.
Please feel free to consult us if you have a specific hardware/ assembly problem that you need help setting up.
b. Variable Quick Design hardware fittings
Fittings that are named 0-name/000 in the hardware list are Quick Design hardware fittings.
These fittings can be used like the Quick Design materials and are meant to have variable characteristics.
Like the Quick Design materials it’s possible to apply a fitting and then change its definition to update all the instances of the fitting throughout a specific piece of furniture or project. For instance if you set up a 0-dow/001 that places an 8mm dowel fitting on all the cabinets in a project, changing the 0-dow/001 diameter to 6mm will change all the dowels of your project to 6mm.
These elements can be used with Quick Design Rules (see the Rules library section for more details).
If you are interested in sharing your libraries with the community post a thread on the forum with a cabinet containing the hardware and a description and we will do
2 Placement Rules
Placement Rules tell Polyboard where and how to put hardware.
There are 3 types of rules in this library, the first is used to place multiple hardware fittings, the second to place one fitting and the third consists of generic Quick Design place-ment rules that can be modified to redistribute hardware as necessary.
a. Rules for Multiple hardware fittings
0100-0120/0600-n/lf-rv
● 100- : distance from left side
● 120/ : distance from right side
● 600- : maximum spacing
● -n/ : reference n=under passing or non priority panel p=over passing panel z=zone
The following image shows the reversed placement of the last fitting putting the dowel on the other side of the cam.
For instance, in the example 0100-0100/0600-p the place-ment ‘rule’ has told Polyboard to put the hinges at 100mm from each end of the door and when the door is over 600mm tall add another hinge.
We have set up a series of rules using a stan-dard naming format:
Right offset-left offset/maximum spacing
(measured p= priority (over passing) panel, n = non priority (under passing) panel, z=free inte-rior zone)
Other parameters that can be added:
● /lef : distance from left
● /rig : distance from right
● /cen : centred
● /lf-rv : last hardware fitting reversed or flipped over
b. Single hardware fittings
Similar to the Multiple hardware rules, these rules are named:
Unique-left-0050-n
This means:
Unique-reference side-distance from reference-panel or zone reference.
c. Quick Design rules
These rules are meant to be associated with a specific type of Quick Design hardware fitting. They are named:
0-rul/qd-hardware/ref.number/other information
For example:
0-rul/dow-010
Refers to the rule that places dowels. 0-rul/hing-010/app
Is the rule for placing hinges on applied doors.
These rules can be associated to specific Quick Design hard-ware in the Fitting Links sub-methods.
Watch this Using Quick Design Placement Rules video for more information.
3 Single panel fittings
These are hardware that is only on one panel and not between 2 panels as a ‘Fitting’.
For example a door handle of screw on cabinet foot. The naming convention is as follows:
foot/10-thr/5-10/f2x4
● foot = name of the fitting
● /10 = diameter of the drilling
● -thr = depth of drilling ‘thr’ = through
● //5 = diameter of next drilling
● -10 = depth of drilling
● /f2 = face drilled
Other possible parameters: ● /grv = groove ● -10 = groove width ● /l = groove length ● /d = groove depth ● /h = horizontal ● /v = vertical ● /x = x position ● /y = y position ● /c/ = centered ● /ct/= center top ● /cb/= center bottom ● /lt/=left top ● /lc/= left center ● /lb/= left bottom ● /rt/= right top ● /rc/= right center ● /rb/= right bottom
Manufacturing Methods Libraries
A Manufacturing Method is only an assembly of a series of Sub-Methods.
This library contains 2 types of Methods, the standard Methods that use normal Fitting Links sub-methods and the Quick Design Methods that use the Quick Design Fitting Links.
The basic methods are named:
● Bas.cab-19/mela/dow-scr
This means:
Base cabinet mainly in 19mm melamine with dowel and screw assembly.
Quick Design Method names start with 0-:
● 0-19/mela/MiniFix/dow
This means:
Main material is 9mm melamine, with Quick Design Minifix and Dowels
All other suggestion are welcome.
Watch the How to set up a Manufacturing Method video for more information.
Sub-methods Libraries
Sub-methods are like style sheets that you can apply to your project.
Each type of sub-method will set up a specific aspect of the project to follow a preset series of rules.
Note that Sub-methods can be grouped into one
Manufacturing Method, which in turn can be applied to a project.
The following pages look at the different sub-methods that are available.
1 Box Full
These sub-methods will tell Polyboard how to build the carcass of your cabinet.
To build an organisation minimising the name lengths, we have set up 2 main categories of Box full sub-methods.
The first category numbered from 0-09 defines the panel priorities and the subsequent categories are all based on the panels priorities sub-methods.
The Box Full ‘Priorities’ sub-method is set up with the following naming convention:
003/sp-all/kp-t/kp-b
● 003 = reference name
● /sp = sides priority ‘over passing’
● -all = all panels ‘under passing’
● /kp = back priority
● -t = over the top ‘top under passing’
● /kp = back priority ‘over passing’
Other basic Priority styles are: 000/sp-all/allp-k
● Sides priority over all panels
● All panels priority over the back
001/tp-all/sp-b/allp-k
● Top priority to all panels
● Sides priority to bottom
● All priority to back
Subsequent styles 010-099 are based on the Priority styles.
032/k-24/gv-10//002
● Back set back 24mm
● Grooved into the surrounds 10mm deep
● Based on the 002 priorities style
Subsequent styles 100-199 are based on the 010-099 styles.
120/b-100//020
● Bottom is raised up 100m
● Based on the style 020
For example:
desk/b-100/t.all+50//011
● ‘Desk’ with bottom raised 100mm
● Top over lapping all panels by 50mm
Here’s an exploded view of a cabinet made as a variation on the style:
000/sp-all/allp-k
● 050/k-8/gv-10//000
● Back set back 8mm
● Grooved into surrounds 10m deep
Inspire yourself from the existing methods and change or add sub-methods as needed.
Use the sort numbers to group the methods in the list.
Feel free to post a request on the forum if you would like us to create a specific method for you.
View the Using Quick Design Box Full Styles
2 Materials Style
This sub-method library will tell Polyboard in what materials to build your project.
The Materials Style Sub-method work in conjunc-tion with the Materials libraries.
The Default (Défaut in French) method will set your projects using the Quick Design materials, using one material by panel. This will make it easier to change the aspect of each different part of your project.
This is fine if you are using an approved supplier, but if you want to build your project yourself, you need to apply a Materials Sub-method that will give a coherent cutting list.
To create a coherent cutting list change the default method to a method that groups the materials by structure.
The naming convention we use is the following: ‘mela/car-19/int-16/bac-08/fac-egger 0190’
● mela : main material
● //car : grouped part’s name car= carcass, int=inside of drawer boxes, bac=backs and bottoms, fac=facade elements
● -19/ : thickness of preceeding element
● /int-16/ : secondary thickness (drawer interiors)
● /bac-08/ : backs, drawer bottoms
● /fac-Egger 0190: facade elements
The sub-methods mainly use the manufacturer’s name and the thick-ness of the material.
The ‘generic’ method uses the ‘generic’ panels that can be changed to specific name so that the name will be displayed in the cutting lists. Use the ‘duplicate’ command button to make copy of a method that you can edit to your own specifications.
3 Edges Style
This sub-method will tell Polyboard how and when to apply edging materials to the parts of your project.
The Edges Style Sub-Method works in
conjunction with the Edges Materials library. Change the Edging Material library to change globally all the edging of your projects.
The Quick Design methods have been set up to apply edging only to visible edges.
If you need edging on other panels you’ll have to edit the method or better make a copy and edit the copy.
There are two Methods shown on the next two pages...
0-edging/all-010
This method will apply 0-edging 01 to all the panels where necessary.
Here’s a cabinet using this method with the 0-edging 010 set to red:
0-edging/cab-010.fac-02
This method will apply 0-edging 010 to all panels except the facades.
Facades will have 0-edging 020 applied. Here’s a cabinet with the method
0-edging/cab-010/fac-020 applied and the 0-edging/020 set to green.
Have a look at the Using Quick Design
Edging video to see how to use the edging sub-method.
4 Divisions
The Divisions Sub-Method contains a list of methods that define the set back (or overlap) of the internal panels rela-tive to the other panels.
In general this will concern the shelves and eventually uprights relative to the façade.
Note that the façade refers to 2 conditions:
An open façade with no façade component or a closed façade with a panel closing it (usually a door).
The default method will set all components flush with the façade, not so good if you have a mobile shelf behind a door.
The naming convention used is the following: 010-she.mob/fac/doo/rec-10
● 010- : sort code
● she. : main division type she=shelf, fre=free division, upr=upright
● mob/ : sub type a=all mob=mobile fix=fixed
● fac- : panel that the division panel is against fac=open facade, doo=behind door
● /doo : behind doors
For example:
010-she.mob/doo/rec20 Mobile Shelves behind doors will be set back 20, all others flush.
And:
020-she.mob/fac/doo/rec30
Mobile shelves against open facades and behind doors will be set back 30mm.
Watch the Using Quick Design Divisions video for more information.
5 Fittings Links or Hardware Sub-methods
The Fittings Links Sub-Method enables you to assign hard-ware to panels.
Each hardware type is associated with a placement rule that will tell Polyboard how to machine each panel.
The naming convention used is the following: bas-cab//Blum//dow-08//Minif//
● bas-cab : title or group name
● /Blum : main hardware manufacture’s name or sort code
● /hing-000 : hardware type with or without 3 digit refer-ence, hing=hinge, drw=drawer runners, cam=cam, scr=screw, etc
● // dow-08 : next hardware element, dowel with diameter
● //MiniF : next hardware element
● // end : additional text
The Fittings Links sub-methods library also includes a series of Quick Design methods.
These sub-methods are named 010//description through to 040//description.
Applying these sub-methods will enable you change all the hardware and there distribution rules by changing their definition in the library.
Using the Quick Design sub-methods all hardware can be modified throughout a project without having to modify each individual element.
Watch the Using Quick Design Fittings Links video for more information.
6 Regular Drillings
Regular Drillings are holes that are drilled into the upright panels to comply with the 32mm system of assembly.
You can apply these drilling to a cabinet by
highlighting a Zone, right clicking and choosing ‘Regular drillings’ in the mouse menu.
Note that the drillings will only be added if you have added a ‘Positioning Rule’.
Cont 10-10/c/z/37-37/600z : this will activate holes continuously along a panel
Zone 10-10/c/z/37-37/600z : this will activate holes only in a specific zone
The naming convention is: Cont 10-10/c/z/37-37/600z
● Cont: continuous drilling or drilling by zone
● 10-10/ : first lower hole distance from bottom and minimum last hole distance from top
● c/ : continuous or groups of holes separated by a specific distance
● z/ : placement reference z=in the zone p=panel
● 37-37/600z = positioning rule
You can duplicate these methods and adjust it to your specific needs.
7 Doors
The Doors Sub-method defines the slack or play around doors.
The default method uses increments of 1.5mm. Other methods use 2.0, 2.5 and 3.0mm increments. The naming convention used is:
Bid-1.5/to-2.0/bo-2.0//apd-3.0/to-4.0/bo-4.0/
● Bid-1.5/ : built in door with general value
● to-2.0 : deviations from the general value to=top,
bo=bottom, hs=hinge side, os=opening side, id=slack between doors, dp=depth and recess for built in doors
● //apd-3.0/ : applied door with general value
Other codes:
● id : inter door slack
● //sld/ : sliding door ● l2 : number of levels ● d2 : number of doors ● ol : overlap For example: bid-2.0/dp-3.0//apd-3.0/id-5.0
● Built-in doors have 2mm slack all round and are set back 3mm from the front. Applied doors have 3mm slack all round and 5mm slack between 2 doors.
7 Drawers
This sub-method sets all the parameters for building drawers.
But unlike Doors, the drawers sub-method also includes the inner drawer construction that you can access by clicking the ‘Assembly’ button.
Like the ‘box full’ sub-method, the drawer sub-methods contain a specific reference method which we have called
the ‘priorities’. The priorities define how the drawer’s inside components are placed.
The other methods reference the priorities and define how the façades of the drawer react in the same way as the door sub-methods.
The drawer priorities methods are coded as follows: 000-sfkb/sp-all/kp-b/fp-b//ls-12.7
● 000 = the reference name
● -sfkb = with Side, counter Front, bacK, and Bottom
● /sp = side priority
● -all = over all other panels
● /kp = back priority
● -b = over bottom
● /fp = counter front priority
● -b = over bottom
● //ls = lateral slack
● -12.7 = ls value
Other possible values variations from the default:
● dts = drawer top slack
● dbs = drawer bottom slack
● dh = drawer height
● dks = drawer to back slack distance
The other ‘priorities’ are:
001-sfkb/sp-all/bp-k/fp-b//ls-12.7
● Contains side, counter front, back and bottom
● Sides priority to all panels
● Bottom priority to back
● Front priority to bottom
● Lateral slack at 12.7mm
002-sfkb/bp-all/sp-k/sp-f//ls12.7
000 ‘priorities’
The other sub-methods reference the “priorities” using the following codes:
bidr-1.5//apdr-3.0//b-10//000//screw-sides
● Built in drawer with slacks at multiples of 1.5mm
● Applied drawers slacks 3mm
● With the bottom set back 10mm
● Based on the ‘priorities’ 000
003 ‘priorities’ bidr-1.5//apdr-3.0//b-10/k-15/f-s/grv-16/s-b/grv-10//003
● Built in drawer with 1.5mm slacks
● Applied drawers with 3mm slacks
● Bottom set back 10m from all panels,
● Back set back 15mm
● Counter front and side with grooved assembly 16mm deep
● Side and back with grooved assembly 10mm deep
● Based on the 003 “priorities” method
In the Quick Design methods the interior lateral slack is set at 12.7mm. Watch the Using Quick Design Drawers video for more information.
9 Assembled Pieces
This library works with the Panel Structures and Bars libraries. See the Panels Structures and Bar Materials sections to see how they work.
Note however that applying an Assemble Pieces Sub-method to your cabinet will modify all the framed panels in your cabinet, whereas applying an Assembly Structure using the Properties menu will only change the specific panel you are working on.
Conclusion
Whether you are a first time designer or a seasoned manufacturer, if you take the time to learn how to apply this Method, the Quick Design Libraries will make using Polyboard easier and faster.
For more details on using the libraries feel free to visit our website:
WoodDesigner.org
You’ll find plenty of video tutorials on how to use the libraries and also lots of information on all aspects of Polyboard.
If you have any questions, need help setting up your libraries or would like to share your own libraries or ask us to set up a specific library, please post on the Wood Designer forum.
Don’t forget that using the Quick Design Libraries to just design a piece of furniture only require that you know the very basics of using the Quick Design Panels Materials. Your supplier will do all the tech-nical work setting up you design for manufacturing.
The more in-depth aspects can be reserved for professionals needing to set up there own manufacturing methods.