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What is a Work Type?
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The Work Type is a tool that can be used to form a quantity table by construction type in the user environment.
The work type consists of a Structure function and a Field function.
Structure function: This function sets up a classification system so that all types of objects provided by CIM can have a hierarchical structure.
Field function: This function sets up the specifications according to the object’s material type.
Therefore, CIM can make an aggregate table of quantity calculations for each material/material based on the model created.
Step 1. Work Type Configuration.
Figure. 1 Work Type Configuration
This is the setting method for calculating the quantity of the bridge substructure model in Figure. 1.
Base mode > Property > Work Type
① Base mode > Property > Work Type Work Type is a tool that configures the quantity calculation form and sets the quantity calculation range system. Click Work Type to go to the setup process for Structure and Field. |
② Base mode > Property > Work Type > Structure This tool creates a structural system for the quantity calculation form. [This is the same as the sheet structure that is created in Excel.] |
③ Base mode > Property > Work Type > Field This feature sets the Work Type and standard based on the object type that shows in the quantity calculation sheet. |
Step 2. Describes the process used to enter the Structure of the Work Type.
Figure. 2 Structure Classification System
The quantity calculation range of structures can be specified through the structure classification system in Figure 2. The classification system can be customized and input. The example in the figure above was created based on bridge-substructure. Level 1 – 1 Bridge Construction [This is Level 1 classification for bridge work.] Level 2 - 1.1 Water Bridge [This is Level 2 classification for defining the bridge name.] Level 3 - 1.1.1 Superstructure construction [This is Level 3 classification for the bridge structure, where a subsystem can be added.] Level 3 - 1.1.2 Substructure construction [This is Level 3 classification for the bridge structure that can be entered into the structure property.] Level 4 - 1.1.2.1 Starting Pier – 1.1.2.1.1 Abutment body 1.1.2.1.2 Abutment wing [This is Level 4 classification for the bridge structure subsystem.] Level 4 - 1.1.2.3 Pier 1 – 1.1.2.3.1 Coping 1.1.2.3.2 Column, 1.1.2.3.3 Foundation [This is Level 4 classification for the bridge structure subsystem.] |
Step 3. Describes the process used to enter the Field of the Work Type.
The setting under Work Type > Field sets the quantity related construction type and standards using the model’s property information.
Figure. 3 Field Construction Structure (Concrete)
If we take the Field Construction Structure (Concrete) in Figure 3. as an example,
In the concrete field, enter the name as ‘Strength’ and select ‘Material’ for the Field Type to use the material properties.
Enter the name as ‘Pouring’ and select ‘User Defined’ for the Field Type. If ‘User Defined’ is selected, enter a name value (Ex. Concrete pump car pouring (0~15m)) under Items to add a tag in the quantity calculation. |
Figure. 4 Field Construction Structure (Rebar)
If we take the Field Construction Structure (Rebar) in Figure 4. as an example,
In the rebar material field, enter the name as ‘Strength’ and select ‘Grade’ for the Field Type to use the rebar strength properties.
In the rebar material field, enter the name as ‘Diameter’ and select ‘Diameter’ for the Field Type. [Each rebar according to diameter is accounted for in the quantity calculation form.]
If ‘User Defined’ is selected, enter the name of the item required for rebar assembly process. |
Step 4. Describes the Material Settings.
Material information of each model object can be entered and modified.
For example, as shown in the figure above, the name of the concrete is changed and will be changed accordingly in the quantity calculation form.
Figure. 5 Material Settings (1)
When entering the material as shown in Figure. 5, ① Select Tool Under Base mode > Property > Material . ② Select the Material Type on the left side of CIM. In the example above, Concrete Type is set. |
Figure. 6 Material Settings (2)
When entering the material as shown in Figure. 6, ③ Select the Standard Code for the Material Type on the left side of CIM. In the example above, C24 of KS01(KCI-2012) is selected. |
Figure. 7 Material Settings (3)
When entering the material as shown in Figure. 7, ④ Change the name value on the left side of CIM. In the example above, 25-24-15 was entered for the Aggregate Dimension-Material Strength-Slump. |
Step 5. Describes the process used to enter the quantity calculation property information into the CIM model using the animation below.
The animation shows the process of using the Assign Tool to quickly enter the property information into the model (member).
The animation below shows the following. 1) Invoke the Works Tree. (Keyboard Shortcut: Alt+`) 2) Modify Point Library - Abutment (A1). 3) Assign > All Object > Structure : After entering the classification system for the quantity calculation, select and apply the model (member). 4) Enter the Field for the reference object. 5) Assign > All Object > Field : Apply Matchprop the reference object field to the target object. 6) Check the data input for the member. |
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