Department of Public Works
1149 S Broadway, Los Angeles, CA 90015 October 18, 2018 Page |
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Bureau of Engineering
CADD Standards
Preface The Bureau of Engineering is committed to improving the
quality of project delivery offered to all our Clients. By
producing electronic design data consistently, communication among
designer, owner and contractor can be streamlined resulting in cost
savings and greater project efficiency. In an organization as large
and diverse as the Bureau of Engineering, developing, maintaining
and
implementing new CAD standards can be a daunting task however, the
alternative of poor consistency,
unpredictability and inaccuracy of contract drawings can result in
significant capital cost. Any attempt at
the task of standardization unquestionably results in not meeting
the needs of all users in all cases. To
minimize the transition challenges, this manual was developed
through a consensus of a variety of Bureau
CADD users, Engineers and Architects and in close compliance with
the National CAD Standard. Tools &
Resources were also developed and are available on the Bureau’s
website.
The goal of this document is to enhance the standardization of BOE
drawings and digital files while reaffirming compliance with the
latest National CAD Standard published by the National Institute of
Building Sciences. This Standard will serve as a foundation for
information sharing and enhancing coordination between the
designer, engineer, contractor and owner. It will also be used as a
basis for future development of BIM workflows and 3D Modeling
standards for the Bureau of Engineering. In this document the
acronym CADD will be used repeatedly. CADD is defined as Computer
Aided Drafting
& Design. The Bureau has recognized that the evolving nature of
computer design technology is obscuring
the divide between Drafting, Design and Engineering Analysis.
Modern CADD tools do far more than
drafting; now requiring Engineers, Architects and Owners to become
competent users. At the same time
however, the standardization of plan production remains of top
importance to be successful in
implementing advance uses of modern technology.
The CADD Standards Committee is committed to the continued
improvement and enhancing the usability
of this standard. To be successful, we are reliant upon the
cooperation and participation of all Bureau
professionals. To the extent possible, we request that you
structure your projects and data in accordance
with this Standard, augmenting it only in those cases where your
project cannot be sufficiently classified,
organized or represented according to it. Compliance will ensure
your project data can be freely exchanged
with other Bureau divisions and adopters of this Standard.
Version updates: To denote changes from version to version, a delta
(Δ) will be placed where material has
been deleted and red text where material has been added or
revised.
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1.2 Library Files
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15
1.3.1 Sheet Naming
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16
2.0 Sheet Organization
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20
2.1 Sheet Size
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20
2.2.4 Note Area
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24
2.2.5 Cover Sheet
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25
2.3 Supplemental Sheets
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26
3.0 Drawing Conventions
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27
3.1 Drawing Standards
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27
3.1.2 Grid System
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31
3.1.3 Coordinate Systems
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32
3.1.4 Drafting Precision
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33
3.1.5 Scales & Units
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34
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3.2.4 Sheet Type 4 - Large-Scale Views
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78
3.2.5 Sheet Type 5 - Details
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79
3.2.6 Sheet Type 6 - Schedules and Diagrams
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81
3.2.7 Sheet Types 7- Isometrics
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82
3.2.8 Sheet Type 8 - 3D Representations
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83
3.3 Mock-up Drawing Set
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86
3.3.1 Mock-Up Set Procedures
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86
3.3.2 Mock-Up Worksheet
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88
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5.4 Sheet
Keynotes................................................................................................................................
98
6.1.6 Notes Column
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104
6.2.1 Simple vs. Expanded Schedules
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105
6.2.2 Column Identifiers
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106
7.0 Terms & Abbreviations
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109
8.1 Layer Properties
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110
8.1.3 Discipline Designator, LEVEL
1..........................................................................................
112
8.3 Annotation Layer List
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116
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8.4 Layer Colors
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117
8.5.1 Adding New Layers to the Template
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118
9.0 Codes
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119
9.3.2 Federal Regulations
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124
9.4 The Design
Process........................................................................................................................
127
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1.0 Project Folder Structure
Organizing project files effectively and consistently is critical
to the success of design, plan production and
data reuse potential among Divisions, City Agencies, Design
Consultants and Contractors. Without adequate
project controls, the ability to manage the quantity, storage
directory and content of files significantly
reduces. The computer operating systems folder or directory tools
are relied upon for effective project data
management.
Typically, several projects at different stages are stored on a
server at any given time. PC operating systems
software will not allow two identical file names to exist in the
same folder in the system. Therefore, several
separate folders are required to store similar data types for
different projects.
Quite commonly, many Divisions within the Bureau of Engineering
(BOE) store CAD and associated reference
files in a separate directory (and some Divisions a different
server) than other project data. This provides
more flexibility and control of these critical project files as
well as minimizes the potential for inadvertent
corruption of data by an inexperienced user. See Figure
1.0-1.
Figure 1.0-1 Project Folder
Most BOE and City projects are linked to a project work order for
expense tracking and other metrics,
additionally, most BOE projects are assigned a Capital Improvement
Project (CIP) number containing less
characters than a Work Order. Logically, these two assigned values
are used as the primary identifiers for a
project folder. See Figure 1.0-2 for typical project path and
folder name structure.
Figure 1.0-2 Typical Project Path and Folder
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CADD Standards
Note: When more than one Work Order is associated with a project, a
primary Work Order shall be
designated and subsequently displayed first on all project
documents.
The National CAD Standard recommends 8 characters for a project
folder name. For convenience, however,
some BOE Divisions add the CIP number as a suffix since most
projects are identified by CIP number in
conversation. Using a work order is required while using the CIP
number is optional. Once the decision has
made whether to include the CIP number or not, all project folders
shall be name accordingly and
consistently across the entire Division.
The next level of subfolders called “phase folders” should consist
of names identifying the progression of the
project according to BOE’s five established project phases
(Pre-Design, Design, Bid & Award, Construction
and Post Construction). Archive files are created as the project
progresses from phase to phase. Although
archive data is desired and valuable, to minimize duplicate file
creation and data storage requirements,
several phases of data are contained in the Design phase folder.
See Figure 1.0-3. It is acceptable to separate
the Pre-Design and Bid & Award phases of the project if
appropriate for the Division or project. Their
subfolder structure should match the Design folder.
Figure 1.0-3 Design Phase Folder
Within the phase folders are the “discipline folders”. See Figure
1.0-4. The number of disciplines within a
phase folder is dependent on the disciplines involved on the
project and the software used for plan
production. A numeric prefix value is added in front of each
discipline to reflect the order in which disciplines
are organized in a construction plan set. If a discipline is not
relevant to the project the folder may be deleted.
The numerical prefix value, however, should remain the same to
allow for adding and deleting necessary
disciplines as the project progresses.
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Bureau of Engineering
Figure 1.0-4 Discipline Folders
In the BOE, there are two broad design types, “Traditional (2D)”
design and “Model-Based” design. The BOE
currently uses Autodesk AutoCAD® for Traditional design projects.
For Model-Based designs, the BOE uses
various Autodesk platforms including, REVIT®, Civil 3D®, Plant 3D®
and Architecture®. This manual covers
the folder structure for Traditional (2D) design projects only.
Supplemental manuals are being developed
(in conjunction with these guidelines) for each primary model-based
production software used in the BOE.
A projects design type and the associated manual should be verified
before initiating CADD work.
Traditional CADD data includes the following file types: Model,
Sheet, Schedule, Base Map,
Substructure/Utility Map, Survey, Detail, Text, Border, Title
Block, Symbols, Database, Rasters, Images,
Miscellaneous, and Records.
To reduce folder creation, making files identifiable by name rather
than directory is desired; therefore, each
discipline should store their respective data using the file naming
convention outlined in this manual. Files
are stored in the locations identified in Figure 1.0-5.
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Bureau of Engineering
Most BOE projects include several Disciplines with different folder
requirements. The intent of this guideline
is to be comprehensive and flexible. This project folder structure
should be considered a minimum
requirement to ensure adequate design data segregation. If a
Division, Consultant, or Contractor requires a
project-specific modification or blanket variance from these
requirements, it should be approved by the
impacted Division Manager(s), CADD Manager(s) and Design Manager(s)
(if applicable) prior.
1.1 File Naming Conventions
has since transitioned to distributing contract documents via the
digital equivalent, a Portable Document
File (PDF). These files show the same information as printed paper.
Elements, however, are readable by
electronic display devices and have increased intelligence.
The universal reading ability of the PDF format has provided new
opportunities for Agencies and Contractors
to share, store and update necessary project information more
efficiently and sustainably. To maximize this
opportunity and effectively manage vast amounts of data, it is
important to have consistent digital file
naming and project folder organization of graphical and
non-graphical information. Other benefits include
increased data reuse potential for Designers, Contractors,
Operators and Maintenance staff of a facility.
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Bureau of Engineering
CADD Standards
Before exploring the file naming conventions, we will first discuss
the different file types associated with a
typical AutoCAD project.
There are two categories of files. Project files and Library files.
The primary difference is that Library files are
used across projects while Project files typically are not. Since
the requirements and use for each Bureau
Division’s library varies greatly, each Division is responsible for
establishing its individual library standards
within the parameters of these guidelines.
1.1.1 Project File Types Segregating data increases project
flexibility and maximizes the number of users able to work
concurrently
on a single project. Furthermore, the type of file being created to
properly name the file, as this directly
impacts the name, is important to understand. Traditional BOE
project data should be segregated according
the following file types: Model, Sheet, Schedule, Base Map, Utility
Map, Survey, Detail, Text, Border, Title
Block, Database, Raster, As-Built, Image, Archive, and
Miscellaneous. Library file naming conventions are
discussed in a later section. Each file type is defined as
follows:
A Model File contains 2D or 3D graphic representation of physical
“real-world” items in “real world” scale,
things you would eventually be able to touch in the completed
facility. These components are drawn in
"Model Space". Model Files never have a border.
A Sheet File is typically comprised of a border template, text,
symbols, notes and views of model files,
representing everything that appears on the final sheet. Sheet
Files always have a border.
A Schedule File, unlike Model Files and Sheet Files, may be created
by word processing or spreadsheet
software, or may be drawn in CAD or BIM software. In CADD,
schedules created in Word, Excel or Access
software are "linked" into a Model or Sheet file for dynamic
updating behavior in accordance with the
workflow described in Appendix E 16.2 Linking Schedules to
Drawings. This allows a user to revise schedules
outside of the CADD software. If the schedule is not generated by
the CADD platform, then it should be
inserted, referenced, linked or embedded to the appropriate sheet
file.
A Base Map File is a collection of record data, survey topography
and/or imagery that forms the background
setting for a project. The base map typically includes information
such as road limits, building footprints,
right of way, easements, primary structures, ground contours, etc.
This information is used to provide
background details necessary to orient the project.
A Utility Map File is a collection of utility record data that
forms the background setting for existing
underground utilities in a project. The utility map is typically
overlayed on a base map file to determine the
existing utility conditions around the project.
A Survey File is typically provided in two files, an AutoCAD .dwg
file, which typically includes geolocated
topography, points and features and an .xml file that can be
imported into Civil 3D as a Surface and used to
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CADD Standards
analyze existing ground conditions. The survey files usually are
provided by a third party and should not be
manipulated by the CAD designers. If edits are required due to
missing features or poor surface triangulation,
send a correction request to the Surveyor of Record. Survey data
supersedes base map information therefore
base maps should be regularly updated to reflect latest survey
information.
A Detail File is a specific type of model file that includes plans,
elevations, sections, and detail views. A detail
file is required if the view is not derived directly from the
project model. They make up the majority of the
individual files in a project folder.
A Text File may be general notes, discipline specific notes, sheet
type specific notes (for example, notes that
always apply only to foundation plans), and abbreviations. Word
processing software is normally used to
create Text Files.
A Border File contains the surrounding linework that defines the
printing area and window limits. The
standard BOE Border file is available for download on the BOE
homepage
A Title Block File contains project data and associated gridlines
including project location, client, designer,
logos, sheet identification, and sheet management
information.
A Database File include tables that define and label "fields"
(columns and rows) of data. The process of
creating a table requires that each field be labeled uniquely, and
that the allowable kind of data be identified
(for example, whether or not field values must be alphanumeric,
text, graphics, calendar dates, integers, real
numbers, etc.). Spreadsheet and database software also lets the
creator define valid ranges of values for the
fields.
A Raster File is graphics or a bitmap image representing a
generally rectangular grid of pixels, or points of
color. Raster images are stored with image files with varying
formats.
An As-Built File is typically a .tif or .pdf file that reflects all
changes made in the specifications and working
drawings during the construction process, and are intended to show
the exact dimensions, geometry, and
location of all elements of the work completed under the contract.
These files are typically downloaded from
the BOE Vault or provided by the Owner of the facility.
An Image File is a file that contains graphics data.
An Archive File is a copy of a file created to record the state of
a project for potential reuse in the future. As
each drawing reaches a milestone, it should be copied to the
archive folder. Weekly archival backups are
highly recommended. Password restriction to a limited number of
qualified people who can responsibly
manage the task is mandatory.
A Miscellaneous File is anything not described above that must be
used in the completion of a project.
A Record File is a document that must be kept for evidence,
compliance, risk management, etc. related to
CADD.
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CADD Standards
1.1.2 Project File Naming For all given projects, Project File
naming must be consistent. Consistency in file naming is vital for
overall
file and folder management, quicker retrieving and filtering files,
and determining the content of a document
to be known without opening the file. Project files as described in
section 1.1.1 are to be segregated and
named using the Naming Convention and File Type and Naming Key
shown in Figures 1.1.2-1 and 1.1.2-2.
File Type Naming Convention (e.g.)
Model
Sheet
Schedule
Figure 1.1.2-1 Naming Convention
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The BOE Naming Convention shown in Figure 1.1.2-1 consists of the
Capital Improvement Project number (
), followed by the Discipline Designator ( ), the Project File Type
( ) in accordance with
Figure 1.1.2-2, the discipline subset ( ), which may include the
sheet number ( ); a view (
) designation, grid number ( ), or year-month-day ( ) and lastly a
user defined
field ( ).
Abbreviation Description Abbreviation Description
MD Model MS Miscellaneous
SH Sheet EXT Extension
BM Base Map D Discipline
UM Utility Map DS Discipline Subset
VF Field Survey V View
DT Detail USERD or USERDEFI User Defined
TX Text DS## Discipline Subset Sheet Number
BRDR Border YYMMDD Year-Month-Day
DB Database D12345 Index Number
RS Raster ## Page Number
Figure 1.1.2-2 File Type and Naming Key
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1.2 Library Files
Library files are those used across multiple projects. They can be
base maps, imagery, utility map, detail,
schedule, text, database, symbol, border, and title block files.
Manufacturers, suppliers, vendors, and all
associated parties who create Library Files for use on multiple
projects shall create Library Files in full
compliance with the United States National CAD Standard® drawing
and naming conventions. The naming
of these files shall follow either the MasterFormat™ or UniFormat™
file naming method as described below.
Note: Library file types are not project specific.
1.2.1 Library File Types A Schedule file provides project data in a
tabulated format. Unlike Model Files and Sheet Files, Schedule
Files
may be created by word processing or spreadsheet software.
A Symbol file is a standard graphic representation of an item or
materials by association, resemblance, or
convention. A symbol often represents a material or object not
fully illustrated on the drawings. They have
a role in creating, understanding, and fulfilling the intent of
construction documents. Standard symbols
ensure clear and concise communication among the lead designer,
owner, contractor, and consultants.
Refer to section 4.0 Symbols for an explanation of symbol types in
detail.
A Block file is a collection of objects that are combined into a
single named object.
A Plot Style table file contains several of the plot settings used
when plotting a drawing. You can use a table
to reduce the number of redundant steps you need to perform each
time you plot a drawing.
Note: Refer to section 1.1.1 for additional file types.
1.2.2 Library File Naming The naming of Library files follows the
Bureau’s latest adoption of the Construction Specification
Institutes
MasterFormat™. Any outside Consultant or Contractor who creates a
Library file for a project should consult
that Division’s standard for Library file naming and be in full
compliance. MasterFormat™. A numbering
system based on MasterFormat™ is recommended for naming most
library files. Refer to Figure 1.2.2-1. A
numbering system based on UniFormat™ is also acceptable if
otherwise multiple MasterFormat™ numbers
are required. If using the MasterFormat™ or Uniformat™ are not
appropriate for the library file type, the file
shall be named in accordance with the Project file naming
convention.
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Bureau of Engineering
Figure 1.2.2-1 Library File Naming
Library Files should not be edited directly for a project. The file
should be copied into the project folder and
named according to the project file naming convention. The CADD
manager should back up Library files
regularly.
1.3 Sheet Naming Overview
Consistency in labeling and organizing sheets is critical for
quality control and predictability of BOE’s Capital
Improvement Project delivery. The Bureau’s sheet identification
format adopts the Uniform Drawing System
(UDS) which is a key part of the NCS. The UDS system provides a
wide range and flexible identification format
that accommodates all disciplines practiced within the BOE. The
system is divided in three main components,
Discipline Designator, Sheet Type designator and the Sheet Sequence
number.
1.3.1 Sheet Naming Due to the array of projects completed at the
BOE, it has adopted the two-level Discipline designation
system for larger projects consisting of 50 or more sheets. This
consists of two unique alphabetical
characters. The first character (Level 1) represents the Licensed
Discipline classification. The second
alphabetical character (Level 2) represents the disciplines subject
matter, also called “subset”. Refer to
Figure 1.3.1-1. For example, a Civil engineer may be the designer
for surface improvements and a storm
water drainage system. With the Level 2 designator system, the
Civil engineer will segregate the surface
improvement information onto sheets with the Level 2 designator of
CI (Civil Improvements), while the
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CADD Standards
storm water drainage system drawings will reside on CU (Civil
Utilities) sheets. This method of increased
data segregation is a key part of the system’s flexibility for
large projects. Every discipline and associated
subset (Level 2) designators have a unique character value. See
12.0 Appendix A - Sheet Naming & Sheet
Type for a complete list of Disciplines and Discipline Subsets used
in the BOE. Projects with less than 50
sheets may opt to omit the Subset (Level 2) designator. The
Disciplines are ordered by how they should
appear in the contract documents.
Figure 1.3.1-1 Discipline and Subset
A Sheet Type designator as shown in Figure 1.3.1-3, consists of one
unique numerical character that
represents the drawing view type(s) on the sheet (e.g. plan,
section, elevation view, etc.). All sheet types
apply to all discipline designators. See Figure 1.3.1-2 for
location of the sheet type designator. Refer to
12.0 Appendix A - Sheet Naming & Sheet Type for a list of Sheet
Types and Designators. The different
sheet types contain the following type of views:
Figure 1.3.1-2 Sheet Type
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General (0): General notes, legends, symbols, keyplans, Title,
index, rendering, notices
Plans (1): Views of horizontal planes, showing components in their
horizontal
relationship. Plans and Profiles are also included in this sheet
type.
Elevations (2):
Views of vertical planes, showing components in their vertical
relationship,
viewed perpendicularly from a selected vertical plane. Elevations
are views
typically from outside of components and do not show the
internal
components not visible from the exterior.
Sections (3): Views of vertical cuts through components, showing
their detailed
arrangement.
Large-Scale Views (4):
Plan, elevation, or section drawings reproduced at a larger scale
to provide
more detailed information than shown on the smaller-scaled drawing.
Scales
1/4”=1’ and larger.
Details (5): Plans, elevations, or sections that provide more
specific information about a
portion of a project component or element than smaller-scale
drawings.
Schedules (6): Tables or charts that include data about materials,
products, and equipment.
Diagrams (6): Non-scaled views showing arrangements of special
system components and
connections not possible to clearly show in scaled views.
Photos (7): Non-scaled views not otherwise defined. Aerials,
Photographs, Renderings,
etc..
Reference attachments such as shop drawings, as-builts, schedules,
records,
etc..
Figure 1.3.1-3 Sheet Type Designators
Each subset may contain one or more of the preceding sheet types.
Using all the sheet types for a project
or within a discipline is not required. Sheet types shall be
organized in sequential order. This designator
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CADD Standards
does not prevent the combining of sheet types-for instance, a plan
and profile or elevation and profile when
required by the design. The lowest sheet value will govern the
designation.
The Sheet Sequence number consists of two unique numerical
characters that identify each sheet in series
of the same discipline, subset, and sheet type. Refer to Figure
1.3.1-4. Sheet 00 is not allowed. Sequence
numbers need not be sequential to permit future insertion of sheets
during design. It is desirable for each
discipline to create their own site plan if work locations differ;
for example, sheets AS102, MS102, and
ES102 show the same background site plan but identify their
respective work locations.
Figure 1.3.1-4 Sheet Sequence
Additional drawings inserted in a set after a project has been
indexed by the vault can use a user-defined
suffix comprised of two characters as shown in Figure
1.3.1-5.
Figure 1.3.1-5 User Defined
Occasionally an entire drawing must be altered and reissued for
supplementary work involving a change
in scope. When this occurs, a user-defined suffix character to the
sheet identifier may be introduced.
Descriptors include R for revised issues of similar scope, X for
complete changes, and A, B, C, for phased
work where multiple versions of the same drawing are expected. A
dash always follows the sheet
sequence number to separate it.
Revisions made to drawings after the project is indexed should be
indicated by using a revision cloud and
number. The revision number is placed in an upside-down delta next
to the revision cloud and
accompanied with a brief description in the revision block.
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Bureau of Engineering
2.0 Sheet Organization
This section provides guidelines for management and organization of
sheets. The benefits of sheet
organization standards include: enhanced communication among
drawing preparers and users, improved
quality control by providing a quality assurance standard. Easier
data management and consistent sheet
format among design disciplines, conveying a coordinated message to
bidders.
2.1 Sheet Size
The Bureau of Engineering primarily issues documents digitally.
Regardless if the document is issued via
hard copy or digital, the plotted size should be Architectural Size
D (24” x 36”). Change Order and/or
Supplemental drawings are typically issued on ANSI Size B 11x17
sheets.
2.2 Sheet Layout
Drawing sheets are primarily divided into four main areas: drawing
area, title block area, production data
area, and note block area as shown in Figure 2.2-1 below.
The first three areas are required on every drawing. These areas
contain information regarding
construction or reference information, project management or
presentation information, and project
production information. These areas are defined by a border to
clearly separate them from each other.
The last area, Note Block Area, is the area within the drawing area
where keynotes, sheet notes, schedules,
legends, and key plans are located.
Sheet margins are the space between the edge of the sheet and the
sheet area and are predefined in the
BOE template Border files available on the BOE’s website.
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Bureau of Engineering
Figure 2.2-1 Drawing Sheet Layout
2.2.1 Drawing Area The drawing area of the sheet contains drawings,
keynotes, key plans, schedules, and other graphic and
text data necessary to communicate the project scope. The drawing
area is divided into drawing blocks. A
drawing block is an area defined by the drawing coordinate system
that consistently occupies a drawing
area for the same purpose (e.g. notes, graphics, schedules, etc.).
Drawing blocks should remain the same
throughout the drawing set. This allows the creation of standard
library files with information that may
be easily located, added, or moved between sheets or
projects.
The drawing modules are arranged in columns and rows. Columns are
identified with numerical characters
on top and bottom starting with 1 and increasing to the right. Rows
are identified with alphabetical
characters beginning at the bottom left starting with A and
increasing toward the top of the sheet. Each
module is, therefore, identified by a letter and a number. A
drawing block may be composed of one or
more drawing area modules and is identified based on the lower
left-hand location. Therefore, a drawing
located in the lower left-hand corner of the drawing area, five
modules high by five modules wide, would
be identified as A1. Figure 2.2.1-1 indicates examples of how
several drawing areas would be identified.
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Bureau of Engineering
Figure 2.2.1-1 Drawing Area Coordinate System
Coordinates are placed in the sheet margins to avoid interfering
with text and graphics in the drawing area.
Coordinates are not required for schematic design sketches.
The coordinate numbering system allows drawing areas to be
identified during early stages of the project or
as late as construction record drawings while providing for a
consistent location throughout the drawing set
and project cycle.
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2.2.2 Title Block Area The title block area of the sheet area is
that portion of the sheet
containing project, client, designer, sheet identification, and
sheet
management information needed by the user of the sheet. Refer
to Figure 2.2.2-1. The guidelines for the title block area provide
criteria
for the location of like information shown in data blocks within
the title
block area for easy and consistent retrieval and filing of
drawings.
Designer and Engineer should pay attention to every field in the
title
block.
Figure 2.2.2-1 Title Block Area
2.2.3 Production Data Area The production data area is a portion of
the sheet that contains information on the production of the
sheet.
This data is located along the bottom in the lower left corner of
the sheet and may include the file path, print
time stamp, design revision date, etc. Refer to Figure
2.2.3-1.
Figure 2.2.3-1 Production Data Area
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CADD Standards
2.2.4 Note Area Not all sheets will have a note block. The note
block is located in the far-right column of the drawing area.
Refer to Figure 2.2-1 and 12.2 Appendix A – Sheet Naming &
Sheet Type for additional details.
2.2.4.1 Notes The top two notes should apply to all sheets. Top and
left margins shall be ¼” with single spacing between
left justified text. Refer to Figure 2.2.4.1-1.
Figure 2.2.4.1-1 Notes
2.2.4.2 Keynotes Keynotes are to be use on all projects, and
keynote numbers shall be consistent across all discipline
sheets.
This consistency allows for greater tracking of identical keynotes
between sheets. A 1” spacing between
titles and a ¼” diameter bubble as shown in Figure 2.2.4.2-1
below.
Figure 2.2.4.2-1 Key Notes
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CADD Standards
2.2.4.3 Key Plan A key plan block, when used, should always
be
located in the lowest module of the note block. Refer
to Figure 2.2.4.3-1.
Figure 2.2.4.3-1 Key Plan
2.2.5 Cover Sheet The cover sheet, available on the BOE website,
must identify the project title, and other project team
members involved in preparing the drawings as shown in Figure
2.2.5-2. The cover sheet may also contain
a photograph, rendering of the project, or Key Plan on smaller
projects consisting of 10 or less sheets.
There are two BOE Cover Sheet Layout options, one for “Standard”
projects and another for “Bureau of
Sanitation” projects. The Bureau of Sanitation template (Figure
2.2.5-1) includes a block area for
client/owner information, while the Standard template does not. The
“BOE Cover Sheet for Capital
Improvement Project” link available on the BOE CADD website
provides a .dwg file which includes Layouts
of each option.
If the cover sheet contains specific project data such as a list of
sheets, a listing of abbreviations, general
notes, a building code summary, or a key plan, etc., it should be
identified with a sheet identifier containing
the discipline designator G for general, sheet type 0, and the
sequence number 01 (G-001). Refer to 11.0
Appendix A – Sheet Naming & Sheet Type for further explanation
of the sheet identification format.
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Figure 2.2.5-2 Standard Cover Sheet
2.3 Supplemental Sheets
The supplemental drawing sheet format is similar to the standard
sheet format but is used for
supplemental drawing sheets. Refer to Figure 2.3-1 for an example
of a supplemental drawing sheet.
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3.0 Drawing Conventions
The Drafting Conventions Section provides a standard format for
both graphic and textual information within
drawings. This section provides the following:
• Standards for information consistent with computer-aided drafting
(CADD & design)
• Guidelines for consistent placement of drawings information on
the sheet
• Guidelines for consistent orientation of dimensions related to
drawings
• Line values
• A consistent method of using scales
• A system for creating a mock-up set at the commencement of the
project
The Drafting Conventions Section sets a clear, concise,
comprehensive, and consistent standard for
facilitating cross-referencing, retrieving information, and
communicating clearly for drawing creators and
users.
3.1 Drawing Standards
Drawing standards provide uniform guidelines for producing a set of
construction drawings of consistent
quality that eliminates duplication of information. These standards
address the placement of the drawing
grid and north arrow, recommended scales, type of lines, and
symbols used to represent different articles in
the drawings, the way to represent different materials graphically
and the use of notations.
Plans are the basis of drawing documentation. From these, enlarged
plans, elevations, sections, and details
are developed through a two-way flow of information between the
user and the computer. When a change
occurs in referenced drawings, it can trigger changes in the other
drawings. The order of information to be
shown on a sheet layout is detailed in section 2.3 Drawing Sheet
Layout.
Note: All standards described in this section are available on the
BOE website for download.
3.1.1 Drawing Orientation & North Arrow Three types of north
arrows exist: true north, magnetic north, and project north. True
north points to the
North Pole, and magnetic north is a compass point deviating
slightly from true north and project north
provides a reference point parallel to the plan grid. Magnetic
north is rarely indicated and should be
combined with true north unless the project is near the North Pole.
Refer to Figure 3.1.1-1.
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Figure 3.1.1-1 Diagrammatic illustration of north arrow.
Plans may be oriented on a sheet in various ways to display the
requirements of the project and the intent
of the designer. The orientation of a building's main floor plan or
project site plan sets up the orientation of
all succeeding views. Ideally, the entire project area floor plan
should be shown on one sheet. If it cannot fit
on one sheet, the plan should be subdivided into convenient
segments with match lines provided to
reference where the plan is continued. Refer to section 3.1.7.7
Matchlines.
Civil plans may orient the drawing in a manner that will allow the
site plan to fit within the sheet boundary
when drawn at the most appropriate scale. Refer to Figure 3.1.1-2.
It is required to orient the site plan in
the same manner as other plan views.
Figure 3.1.1-2 Sheet layout orientation
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CADD Standards
The most common orientation of floor or site plans is one where the
plan north arrow points to the top of
the drawing block. The true north arrow is adjusted so that the
building grid and project north arrow are
parallel to the sheet orientation. This approach follows the
customary orientation for maps.
The graphic depiction of the north arrow indicator symbol and the
orientation of the project north arrow, if
different, shall only be rotated between 0° and 180°, is to be
shown on all plan views, and should remain
consistent throughout the set of drawings. Plan north enables the
designer to assign simple names to interior
and exterior elevations. Figure 3.1.1-3 displays the required north
arrow indicator symbol.
North Arrow
Figure 3.1.1-3 North Arrow
Place the north arrow and scale bar in the bottom right-hand corner
of the drawing area. Refer
to Figure 3.1.1-4. The Scale Bar shall be placed 0.5” directly
below the North Arrow and is to be shown on
all plan views. If more than one plan view is shown on a sheet,
then the scale is indicated in the view title
with no scale bar. When true north or plan north are indicated with
separate symbols, place them in the
bottom right-hand corner of the drawing block, located above the
drawing block title symbol.
NORTH ARROW AND
SCALE BAR LOCATION
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CADD Standards
In large or multistory projects, a sheet containing small scale
plans for all levels or areas drawn at 1”100,
1:200, or 1:500 (1/8”, 1/16", or 1/32" = 1'-0") scale or smaller
may be included in the set to provide an
overview of the project and serve as a quick reference. This sheet
is useful if the floor or site plan is divided
into segments to fit in a standard size sheet. It is also useful if
the project will be constructed in phases.
Consistency of the display of information throughout the set is
important. For example, a foundation plan
detail should be shown in the same orientation as it is shown on
the floor plan. Refer to Figure 3.1.1-5. An
enlarged section detail should also have the same orientation as
the wall section or building section from
which it is derived.
Figure 3.1.1-5 Plan detail having the same orientation as the floor
plan.
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CADD Standards
3.1.2 Grid System A grid system is used to indicate structural
columns, load-bearing walls, shear walls, and other
structural
elements on drawings. It is used primarily for reference in
schedules of data. A grid system is also used if the
design of a building or structure is based on a module system,
regardless of the structural system. Grid lines
are used as a basis for dimensioning. Proper planning and layout of
a drawing on the selected sheet size
requires the accommodation of alphanumeric grid designations within
column indicators. Vertical grid lines
should have designators at the top of the grid numbered from left
to right. Horizontal grid lines should have
designators at the right side of the grid alphabetized from bottom
to top. To eliminate confusion with the
numerals 0 (zero) and 1 (one), do not use letters O or I.
Grid line and indicator formats should conform to the graphic
guidelines under Reference Symbols in
the Symbols Module. In some cases, column indicators may be shown
at both ends of the grid line to
facilitate reference, especially if a modular grid system is
used.
Figure 3.1.2-1 Illustration of column grid line.
Where additional intermediate structural support elements occur
between grid lines, a fractional
designation is used. For example, a column occurring at mid-point
between grid lines 2 and 3 would be
designated 2.5. In a similar manner, columns occurring between grid
lines A and B would be represented as
A.1, A.2, A.3, and A.4. Refer to Figure 3.1.2-1. While the
structural drawings must maintain the grid line
number as long as the column is located under the floor,
architectural drawings omit the indicator at the
level where the column ceases to exist. For example, if a building
steps back as its height rises, unused
columns and their associated grid marks are not shown on the
architectural plans. Structural drawings will
show them because columns below are supporting the floor.
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CADD Standards
3.1.3 Coordinate Systems A coordinate system can be used with
baseline dimensioning to
locate various components and project features about a fixed
point
horizontally as well as vertically. To locate a building
horizontally,
fixed points in the building outline (usually two corners and angle
of
relevance) are dimensioned to the property lines. Refer
to Figure 3.1.3-1. Alternatively, other fixed points such as the
survey
benchmark, adjacent street centerlines, easements, natural or
man-
made landmarks, and Northing and Eastings may be used to
relate
project features to the site.
Figure 3.1.3-1 Horizontal Dimensioning
For vertical dimensioning, the ground-floor elevation is set on the
Civil projects site plan at its true
relationship to the benchmark used as a survey datum. The benchmark
should be referenced to National
Geodetic Vertical Datums for actual project elevation to coordinate
grading, drainage, and utility elevations.
For example, if the ground floor elevation is 10'-0" above a datum
set at 685'-4", the ground floor elevation
will actually be 695'-4". To simplify measurements used by the
various trades, the ground-floor elevation on
the drawings may be set at a hypothetical value such as 100'. A
note should be added to the site plan stating
that the actual ground floor elevation of XXX is represented by
100' in the drawings. Setting the datum at
100' instead of 0’ eliminates the possibility of points below the
ground floor (a basement, for instance) having
a minus sign, e.g., -65'-7-3/8", which may confuse some
users.
For plans containing arcs, dimensions are determined by the
angles radiating from the center of the circle. Refer to
Figure 3.1.3-2.
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CADD Standards
3.1.4 Drafting Precision Pen- or pencil-generated drawings are only
as accurate as the thickness of the instrument's point and
the
person using these tools. CAD-generated drawings, in contrast, can
be absolutely accurate. Various people
throughout the design, construction, and post-construction phases
use these drawings. In-house staff,
consultants, contractors, owners, and tenants need to rely on the
accuracy.
To prevent drawings from becoming illegible, eliminate
over-detailing drawings unless a drawing is
specifically being done for a purpose. For example, a steel stud
thickness may be represented by a double
line. Should these studs be drawn at 16" on center in a floor plan,
the result would be a tremendous amount
of useless data. This level of drafting detail is unnecessary and
must be avoided.
The following points should be considered when creating any
drawing:
• Drawings do not always have to be abstract. The purpose and
level-of-detail should be determined
at the beginning of the project.
• Use the minimum number of lines possible to represent an
object.
• Drawings should be large enough to be of appropriate size when
plotted. Show only the amount of
detail necessary for legibility when plotted at its intended
scale.
• If an area of a drawing is to be enlarged when referenced/linked
to another drawing, limit the
amount of unrelated information shown for a specific area and
detail that will be enlarged.
• Eliminate time consuming useless data.
Ensure that lines join precisely at their ends. Do not allow them
to overlap or fall short. Lines that do not
meet precisely will end up causing errors when other items that
rely on the precision of the intersections are
created or inserted.
Use precise dimensions in Schematic Design Drawings when they are
to be converted into Design
Development and Construction Documents Drawings. Refer to Figure
3.1.5.2-1 for discipline-specific
Standard Units and required precision. If Schematic Design Drawings
are not intended for use in subsequent
phases, nominal dimensions may be used. In either case, a note
informing the reader of the dimensioning
method used should be included in the project notes. For instance,
modular dimensions are used for items
such as masonry units where the thickness of the joint is included
with the length of the masonry unit.
It is highly recommended that the actual dimensions or coordinates
of a specific point in space be typed or
use identifiable points such as the intersection of two lines when
drawing, copying, moving, offsetting, or
inserting items vs. using the X and Y coordinates displayed on the
monitor.
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CADD Standards
3.1.5 Scales & Units Scale is the ratio of measuring units
expressing a proportional relationship between a printed drawing
sheet
and the full-size item it represents. In CAD, drawings are created
at full scale and plotted at the selected
scale.
3.1.5.1 Scales Manual drafting requires a scale to represent large
objects, assemblies, and buildings on a relatively small
sheet. CAD permits the user to work directly with a full-size model
of the building to be constructed.
Graphic elements within the drawings such as notes, leaders,
dimensions, and reference bubbles are drawn
in Paper Space and are always the same size. However, occasionally
there are exceptions that involve certain
design data that is drawn in Model space. The size of this design
data must be sized according to the scale
of the final plot. Depending on the discipline and on the type of
drawing, specific drawing scales need to be
used. Refer to Figure 3.1.5.1-1 for a breakdown of these
requirements.
All objects should be drawn to scale and although providing a scale
is not always necessary, the location of
the scale bar shall be indicated directly below the North Arrow or
Detail name as applicable. Scale bars are
to be used on all Plan View drawings. If the plan view is not to
any specific scale it shall be noted Not to
Scale or abbreviated using N.T.S.
Scales
Plan
Civil
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3.1.5.2 Standard Units All disciplines will use Feet-Inches
denotation on drawings with the exception of Civil. Civil will use
Decimal
Feet. Refer to Figure 3.1.5.2-1 below for details.
Standard Units
Civil X .00
Architectural X 1/16”
Structural X 1/16”
Mechanical X 1/8”
Electrical X 1”
Figure 3.1.5.2-1 Standard Units and Precision
3.1.6 Lines Line width affects drawing clarity and legibility.
Wider lines draw attention to that part of the drawing and
place emphasis on certain elements. Screened or half-tone lines
de-emphasize drawing elements. Civil
backgrounds used by another discipline as a background in their
drawing is an example. Screened lines in an
elevation may represent a distant wing or an existing
building.
Interrupted lines (i.e., dash or dash-dot combinations) convey a
message. Symbol lines representing the fire
rating of a partition, match lines, and hidden items, for example,
fall under this category. The following table
shows line widths for different applications for both manual and
CAD-produced drawings. Refer to Figure
3.1.6-1.
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using a fine (0.18 mm / 0.007 in) line. Hatch
lines and patterns, MEP centerlines
Fine 0.18 0.007 Material indications, surface marks, Xrefs,
backgrounds and schedule grid lines
Thin 0.25 0.010
break lines, hidden objects, dashed lines,
center lines, grid lines and existing
schematic symbols
marks, door and window elevations and
schedule grid accent lines
footprints, profiling, section cut lines,
section cutting, plane lines, drawing block
borders, legend hatch outlines and new
schematic symbols
requiring special emphasis, sheet borders
and schedule outlines
portions of design
XXX Wide 1.40 0.055 Right of way and cover sheet lines
XXXX Wide 2.00 0.079 Cover sheet lines
Figure 3.1.6-1 Standard Lines and Line weights
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CADD Standards
3.1.7 Linetypes There are two categories of linetypes. The first
category is where a pattern of dashes, dots, text, or shapes
are applied to a line giving the line a unique look. The second are
lines that are used for a specific purpose
such as a leader or breakline. Refer to Figures 3.1.7-1 and
3.1.7-2.
Figure 3.1.7-1 Line Symbols
Figure 3.1.7-2 Linetype Examples
The Master BOE Linetype List can be found at the BOE’s Website.
Linetypes from the master linetype list
shall be used as applicable. Request for modified/new Standard
Linetypes can be submitted to the BOE
CADD Standards Committee for consideration.
3.1.7.1 Utility Linetypes On utility projects, existing utility
lines are drawn with their corresponding linetype pattern as shown
in
Figures 3.1.7.1-1 and 3.1.7.1-2.
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CADD Standards
3.1.7.2 Leaders Lines that connect notes, dimensions, or symbols to
a point or item in a drawing. Leaders terminate with an
arrowhead terminating on the item being described by the notation.
When creating leaders, they should be
drawn straight. Curved leaders are not allowed. To improve
readability and minimize confusion with other
lines, leaders should be angled at approximately 45 degrees from
horizontal. Leaders shall not cross
dimension lines or each other. Crossing drawing elements should be
avoided. Leaders should start at the
upper right side or upper left side of the notation. Refer to
Figure 3.1.7.2-1.
Figure 3.1.7.2-1 Leader Styles and Text
3.1.7.3 Breaklines Breaklines are used to indicate the cut between
two parts or levels. Examples include a drawing
foreshortened to fit into a detail block or an inclined plane such
as a stair or parking ramp connected between
two floors. Breaklines shall be centered on object. Drawing objects
shall not cross breaklines. Never
foreshorten parts of the drawing that require detailing. Refer to
Figure 3.1.7.3-1.
Figure 3.1.7.3-1 Breaklines
Recommended workflow for breakline creation in AutoCAD and AutoCAD
based products is to use the
Dimension Jog line command as described in section 3.1.7.3.1
Dimension Jog Line, or the Express Tools
Break-line Symbol as described in section 3.1.7.3.2 Break-Line
Symbol.
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3.1.7.3.1 Dimension Jog Line
The AutoCAD Dimension Jog Line is made up of two parallel lines and
a cross line that forms two 40-degree
angles. The height of the jog is determined by the text height
defined for the dimension style (DIMTXT)
multiplied by the value of the jog height factor. The default
Radius jog dimension can be adjusted
accordingly by modifying the Jog angle. Both the height and angle
can be set in the Dimension Style
Manager, Lines and Arrows tab. Refer to Figure 3.1.7.3.1-1.
Figure 3.1.7.3.1-1 Dimension Jog Line
3.1.7.3.2 Break-Line Symbol
The AutoCAD Break-line Symbol command allows the user to adjust the
size of the jog accordingly. Once the
size has been set to approximately 0.10 at a 1:1 scale, a first and
second point are selected establishing a
baseline for the jog line. With the baseline created, the user is
prompted for the location of the jog as shown
in Figure 3.1.7.3.2-1.
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CADD Standards
3.1.7.4 Centerlines Centerlines are used to indicate the center of
a column, wall, pipe, roadway, etc. A thin line interrupted
at
intervals of a short dash represents centerlines.
Recommended workflow for centerline creation in AutoCAD and
AutoCAD-based
products is to use the centerline tools located in the Annotate
ribbon.
3.1.7.5 Dimension Lines Dimension Lines are represented by a thin
line connecting between extension lines defining the
beginning
and end of the object being dimensioned. A terminator mark
identifies the intersection between an
extension line and a dimension line. Terminator marks should be
angled consistently in the same direction.
Refer to Figure 3.1.7.5-1 below.
Figure 3.1.7.5-1 Dimensioning
Dimension, extension and leader lines shall not cross each other
unless unavoidable. When it is
unavoidable, a dimension line is never broken except for inserting
the dimension. An extension or leader
line shall neither run through a dimension nor shall they be broken
except where they pass through or
adjacent to arrowheads.
Dimensions should never be exploded. Use prefix, suffix, and
override feature to add desired values.
Dimension views that most clearly show the form of the feature.
Sufficient dimensions shall be shown to
clearly define size, shape, and position of each feature. A feature
shall not be located by more than one
tolerance dimension in any one direction.
Unless clarity is improved, dimensions are shown outside the
outline of the feature. Each dimension shall
be expressed so that it can be interpreted in only one way. Object
lines or extension lines should not be
used as dimension lines. Do not dimension to hidden lines.
Staggered dimensions shall be used to prevent
interference with other dimensions. Diametrical and radial
dimensions shall be specified with symbols.
The recommended dimension style EED Annotative is available in the
BOE drawing template.
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3.1.7.6 Matchlines Matchlines, as mentioned in section 3.1.1
Drawing Orientation & North Arrow, delineate division
between
two or more areas of a continuous structure that must be shown on
separate sheets because of sheet size
limitations. Do not locate matchlines on column lines, grid lines,
or expansion joints. Locate them instead at
the centerline of a wall or corridor. Matchlines shall be centered
on the drawing object and should be shown
at the same location on both sheets containing adjacent segments of
the plan at the same location. A portion
of plan overlap should be shown beyond the matchline to establish
the relationship between adjacent plan
segments. This overlapped portion must be lightly shaded to avoid
duplication during cost estimating. They
may jog to avoid important elements of the plan. All matchlines
should be shown on the Key plan. The line
width for match lines is indicted in Figure 3.1.7.6-1 below.
Figure 3.1.7.6-1 Matchlines
The recommended linetype Match Line is available in the BOE drawing
template as shown in Figure 3.1.7.6-
2.
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CADD Standards
3.1.7.7 Hidden Lines Hidden Lines represent items obscured from
view by another material. Examples include steel lintels,
relieving angles in elevations, and items above or below a floor
plan. Thin dashed lines represent hidden
lines as shown in Figure 3.1.7.7-1.
Figure 3.1.7.7-1 Hidden lines
The recommended hidden linetype style HIDDEN is available in the
BOE drawing template. Refer to Figure
3.1.7.7-2.
Figure 3.1.7.7-2 Hidden Lines
3.1.7.8 Property Lines Property Lines are represented by a line
interrupted by double dashes as shown in Figure 3.1.7.8-1.
They
indicate the boundary of the site.
Property Lines
Figure 3.1.7.8-1 Property Lines
The recommended property linetype style Continuous is available in
the BOE drawing template.
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CADD Standards
3.1.8 Dimensions Dimensioning is defined as the act of
incorporating numerical values into a drawing as a means of
sizing
various components and locating elements of a project. Dimensions
must be accurate and adequate.
Inadequate dimensions require clarifications during construction,
possible loss of time, and errors.
The purpose of dimensioning is to locate each element of the
construction. Each wall or part of a detail must
be tied to a fixed point such as a column centerline or an existing
benchmark. This applies to plans and the
enlargements associated with them. Refer to Figures 3.1.8-1 and
3.1.8-2.
Care must be taken to show a single dimension only once in its
proper location. Avoid the tendency to over-
dimension.
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CADD Standards
Dimension Notes
Dimension, extension, and leader lines shall not cross each other
unless unavoidable. When it is
unavoidable, a dimension line is never broken except for insertion
of the dimension. An extension
or leader line shall not run through a dimension nor shall they be
broken except where they pass
through or adjacent to arrowheads.
Dimensions should never be exploded. Use prefix and suffix feature
to add desired values.
Dimension views that most clearly show the form of the
feature.
Sufficient dimensions shall be shown to clearly define size, shape,
and position of each feature.
A feature shall not be located by more than one tolerance dimension
in any one direction.
Unless clarity is improved, dimensions are shown outside the
outline of the part.
Each dimension shall be expressed so that it can be interpreted in
only one way.
Object lines or extension lines should not be used as dimension
lines.
Do not dimension to hidden lines.
Staggered dimensions shall be used to prevent interference with
other dimensions.
Diametrical and radial dimensions shall be specified with
symbols.
Figure 3.1.8-2 Dimension Notes
3.1.8.1 Location Generally, dimensions should be located outside
the floor plan or other view being dimensioned. This
minimizes clutter and overlap with other graphics. Dimensions
outside the view should be located at the top
and/or the right side of the plans whenever possible. Offset
dimension lines from object lines a minimum of
1/2" and if unable to place dimensions side-by-side, offset stacked
dimension lines that a minimum of 3/8".
Refer to Figure 3.1.8.1-1. When dimensions must be shown on the
interior of a floor plan or other view, the
dimensions should be arranged in continuous strings for clarity and
consistency. Refer to Figure 3.1.8.1-2.
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dimensions
interior dimensions
3.1.8.2 Types of Terminators Terminators define the junction
between a dimension line and the extension lines leading to the
start and
finish of the dimension. These terminators are in the form of
either a short, slanted line (slash) typically used
for building projects or a filled arrowhead that are typically used
for infrastructure projects. Refer
to Figure 3.1.8.2-1. Slashes should always be parallel. Dimension
terminator selection should be consistent
across the entire set of drawings.
Figure 3.1.8.2-1 Dimensioned floor plan, exterior dimensions
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CADD Standards
3.1.8.3 Numerical Size and Location Numeral size should match the
specified drawing text height of 1/8” and the Arial text style
font. Where
possible, the numeral should be placed at the midpoint and on top
of the dimension line using the offset
0.06 units as specified in the BOE Dimension Style. Refer to Figure
3.1.8.3-1. The terminator should be 1/8”.
Figure 3.1.8.3-1 Numerical Size and Location
3.1.8.4 Plan Dimensions What to dimension from and to depends on
the structural system and the sequence and stage of
construction of a given building type or street width and utility
locations for an infrastructure site plan. Steel
frame and reinforced concrete buildings are normally dimensioned
from column centerline to column
centerline. This should include an additional dimension to the face
of the finished building. Street widths on
infrastructure plans are normally dimensioned indicating street
width and right-of-way widths along the
roadway. Refer to Figure 3.1.8.4-1. For concrete framed multistory
buildings, perimeter columns may be
dimensioned to the face of the column rather than the centerline if
the column depth is reduced in upper
floors while the building facade remains constant. Refer to Figure
3.1.8.4-2.
Figure 3.1.8.4-1 Site Plan Dimensioning.
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3.1.8.5 Vertical Dimensions Vertical dimensions follow a hierarchy
similar to the one described under plans progressing from
detailed
dimensions close to the wall to overall dimensions farthest from
it. Eliminate excessive repetition of
dimensions from small scale to large scale.
Before the layout of building plans can proceed on site, a start
point for vertical dimensioning must be
located. In some areas, coast and geodetic datum relative to mean
sea level are available and should be
shown on the plans and sections. In other areas referencing
benchmarks or street curb datum as available is
convenient. Refer to Figure 3.1.8.5-1.
Figure 3.1.8.5-1 Layout of building plan
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CADD Standards
3.1.9 Notations The Notations Module includes standards for
different types of notes on different types of drawings. The
purpose of notations associated with construction drawings is to
perform the following functions:
• Provide information relevant to the entire set of documents, or
individual disciplines, or individual
sheets.
specifications.
• Inform drawing users as to the design’s execution
requirements.
Brevity should be a guideline for writing notations. The following
are other guidelines for notations:
• Select notes to identify, but not overly describe, the materials,
components, and assemblies.
• Use generic terms for products, materials, and components. Refer
to MasterFormat™.
• Minimize use of abbreviations. Refer to the Terms and
Abbreviations Module.
• Use consistent terminology between drawings and
specifications.
• Compose notations without defining a specific contractor to do
the work unless laws require the
division of work according to a filed sub-bid. An exception may be
multiple prime contracts that may
require a defined division of the work.
• Avoid being specific about the sequence of construction. Unless
required for public convenience,
safety, or operations.
• Eliminate repetition of notations on a sheet.
• Eliminate broad references to the specifications such as notes
that state "per specs" or "refer to
contract."
3.1.9.1 Tables, Schedules and Diagrams Notes used in tables,
schedules, and diagrams should be brief. Refer to Figure 3.1.9.1-1.
Single terms using
the approved abbreviations, verified with the GI sheets, provide a
simple, clear, and efficient means of
communication.
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Figure 3.1.9.1-1 Notes for tables, schedules, and diagrams.
3.1.9.2 Identifying Spaces and Objects Spaces and objects in a
building are identified to easily locate and to simplify the
preparation of schedules.
The identifier is used in drawings, schedules, and specifications
to fully describe the space or object in
question.
3.1.9.3 Graphic Conventions for Text The minimum text size is 1/8"
for CAD. Smaller text size is generally not legible on reduced or
one-half size
sets. All text placed in a drawing is to be upper case, and except
for street names, should not include slant,
oblique, or bold text. Refer to Figures 3.1.9.3-1 and 3.1.9.3-2.
When possible, most text should be horizontal
as shown in Figure 3.1.9.3-3. The use of bold, italic, and
underline should not be used for notes.
Text
0.188 (3/16”) Secondary Text (View Identifications, Note &
Schedule Headings)
0.16 (5/32”) Tertiary Text (Match Line Titles, Street Names,
Building Names)
0.125 (1/8”) General Text (Notes, Dimensions, Rome Names, Labels,
Schedules,
Misc)
0.09 (3/32”) Compact Text (File path, Disclaimers, Footnotes, Title
Block)
Notes: All Text is upper case
All text is Arial font
No slant, oblique or bold text except Street Names
Text horizontal with few exceptions (e.g. street names)
Figure 3.1.9.3-1 Graphic Conversions for Text
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Figure 3.1.9.3-3 Standard Upper Case & General Text
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3.1.9.3.1 Text Style Samples
Examples of BOE standard text styles are shown below in Figures
3.1.9.3.1-1 and 3.1.9.3.1-2.
Figure 3.1.9.3.1-1
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3.1.10 Cross References Cross-referencing provides a system for
tracking information from the general to the specific within
a
drawing set. The master drawing for a cross-referencing system is
the floor plan. The floor plan should
contain references to the building sections, elevations, interior
elevations, plan details, and other
information necessary to fully describe the project. A properly
cross-referenced drawing set does not
duplicate information but provides it one time in the expected
location.
A poorly referenced project is subject to misinterpretation by
contractors, owners, architects, engineers, and
building officials. It can increase the cost of the drawings and
construction due to required addenda,
clarifications, and possibly change orders.
Proper cross-referencing does not require any extra effort. The
most efficient way to do this while
maintaining control over the process is to create a comprehensive
and detailed mock-up of the project. Refer
to section 3.3 Mock-up Drawing Set.
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CADD Standards
3.1.10.1 Drawing Identification Each drawing should be provided
with a unique drawing identification and corresponding sheet
identification. Items on a drawing that require additional
clarification are provided with a cross-reference to
another drawing or view on another sheet.
For example, a section cut shown on a plan refers to a specific
drawing on a specific sheet at another place
in the drawing set. This drawing may require additional
cross-references on other sheets. Refer
to Figure 3.1.10.1-1.
Figure 3.1.10.1-1 View Identification
3.1.11 Symbols Symbols are graphic representations of an item or
materials by association, resemblance, or convention. A
symbol often represents a material or object not fully illustrated
on the drawings. Refer to 17.0 Appendix F
– Symbols Index for the library of BOE symbols.
3.1.11.1 Identity Symbols Identity Symbols are abstract
representations of an item. An electrical outlet is an example.
These symbols
are can be either scale dependent or scale independent.
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Figure 3.1.11.2-1 General Symbols
3.1.11.3 Line Symbols Line Symbols indicate continuous objects and
are either single or double lines. Walls are usually drawn
with
two lines and ducts with one or two lines based on the scale of the
drawing. Refer to Figure 3.1.12.3-1.
Figure 3.1.11.3-1 Line Symbols
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CADD Standards
3.1.11.4 Material Symbols Some material symbols are used in
drawings to help the viewer understand the use and extent of
materials.
They are used to portray a material graphically in plan, elevation,
or section and are drawn to scale. A graphic
representation of concrete is an example. Refer to section 4.0
Symbols. Symbols should provide
identification of material. Detailed information about the
indicated graphic material should be placed in the
specifications.
Material symbols may define general use if the material covers the
entire surface, or a specific pattern such
as the coursing and placement of bricks. For clarity, notes calling
out the material may be used in lieu or
addition to the graphic symbol.
3.1.11.4.1 Hatching
Hatching refers to the patterns of repetitive lines, dots, or
figures used to indicate specific types of materials
or designate specific areas. Hatching is very useful in making
drawings readable. Use it only to indicate
specific materials such concrete, asphalt, or specific areas where
work is to be done. For example, drawings
shown at 1:100 (1/8" = 1'-0") or smaller rarely require any
hatching to indicate materials. Use a hatch pattern
to indicate a specific area of flooring to be removed within a
larger area of flooring to remain.
Select small areas to be hatched that will clearly identify the
entire area. Indicate hatching where materials
change or terminate. Hatching should be used as extensively as
necessary to promote clarity in the drawing.
3.1.11.4.2 Scale in Material Indications
Small-scale plans and sections should use simplified versions of
the material indication symbol to keep from
cluttering the drawing. Large-scale details should use material
indication symbols that have enough detail to
describe clearly the material and its size.
Note: The BOE uses annotative hatches to automatically adjust
scales per views.
3.1.11.5 Object Symbols Object Symbols represent items such as
furniture and toilet fixtures. These symbols are drawn to
scale.
3.1.11.6 Reference Symbols Reference Symbols refer the reader to
another part of the documentation. Partition type symbol,
section
cuts, and elevation references are examples.
3.1.11.7 Text Symbols Text Symbols graphically indicate a word or
words and may be used in notations on drawings. For letter
symbols, dimensionless numbers, mathematical symbols, and subscript
symbols, refer to ASHRAE Handbook
- Fundamentals.
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3.2 Sheet Types
Sheet types consist of scaled views and non-scaled views. Scaled
views are plans, elevations, sections, large-
scale views, and details. Nonscaled views are diagrams, 3D
representations, and schedules. Project sheets
are grouped into categories identified by alphanumeric numbers
listed and explained in detail in the 1.0
Drawing Set Organization Module. The following discussion on sheet
types includes general guidelines for
information necessary for each sheet type. These guidelines are not
intended to be comprehensive but may
be used as a basis for establishing a check list for coordination
and completeness of the sheets.
3.2.0 Sheet Type 0 – General General sheets provide information of
a general nature that applies to the whole project as well as to
each
discipline. The first sheet in the set following the cover sheet
provides information that includes the list of
sheets, code summary, materials and the graphic symbols legend,
abbreviations, a small orientation or
vicinity map indicating the location of the project, and other
relevant information of a general nature. A
general information sheet is placed at the beginning of the set of
drawings for each discipline to show
information of a general nature unique to that discipline. Refer to
Figure 3.2.0-1.
Figure 3.2.0-1 General
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CADD Standards
3.2.1 Sheet Type 1 - Plans Typical components of plans, shown in
Figure 3.2.1-1, include the following information:
• Drawing Scales: Indicate scale on plans. Refer to section 3.1.5.1
Scales for information on scales.
• Column Grid Lines: If used (may be omitted on Civil and Landscape
plans).
• True North Arrow and Plan North Arrow: If used.
• Key Plans: Show clearly the relationship among the elements of
complex projects or where the size
of one element requires two or more drawings to delineate a level.
Include column grids adjacent to
match lines and corners; do not label rooms or departments.
Figure 3.2.1-2 Plan
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3.2.1.1 Civil Plans Civil plans include site demolition, site
improvement, dimension control, grading, paving, and site
utilities
plans. Dimension control plans show benchmarks and survey control
point locations as well as
interrelationships among buildings, streets, parking areas, fences,
and utilities. Grading plans define limits
of all grading work, provide critical spot elevations, and set
controlling grades to ensure proper site drainage.
Paving plans establish base lines for large paved areas, locate
roads, and indicate types of paving. Site utilities
plans show the size and location of all new and existing
utilities.
Include the north arrow, key plan, match lines (if used), scale,
and column grid described at the start of Type
1 Sheets. The following list of items should be included in all
Civil plans:
3.2.1.1.1 Site Demolition Plans
Typical components of demolition plans include the following
information:
• Limits of items to be removed from the site including planting,
exterior lighting, and paved areas.
• Curbs to be cut as well as trees and plantings to be
protected.
• Locations of existing structures and utilities to remain.
• Items to be demolished and removed from site.
• Items to be salvaged and turned over to owner.
• Items to remain undisturbed and be protected.
3.2.1.1.2 Dimension Control or Layout Plans
Typical components of dimension control or layout plans include the
following information:
• Base plans showing information from field survey including
benchmark and survey control point
locations.
• Locations for access and egress to facilities.
• Horizontal layout for fencing.
Guidelines for Dimension Control or Layout Plans
• Structures should be located by horizontal coordinates where
possible. Reinforced concrete
structures should be located relative to face or centerline of
wall. Steel structures should be located
by grid line.
• Do not show dimensions or elevations of structures already shown
on Architectural or Structural
drawings. Adequate dimensions should be provided so that nothing
has to be scaled from the
drawings. Include inverts for graded (sloped) site utility lines at
point of connection to building
utilities.
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Typical components of grading plans include the following
information:
• Site grading with controlling grades to ensure proper drainage.
Critical spot elevations must be
positioned relative to a survey control point, structure, or road
baseline.
• Limits of grading work.
• Sizes of new drainage facilities with controlling grades.
• Modified contours for the new design. Relate them to the building
outline to ensure positive
drainage to catch basins and other discharge points.
• Spot elevations at corners and points adjacent to building
entrances.
3.2.1.1.4 Paving Plans
• Large paved areas. Locate by establishing a baseline.
• Roads. Locate based on a centerline horizontal alignment.
• Paving. Indicate types.
• Core lines and expansion, contraction, and control joints.
Dimension each item to the nearest fixed
point.
Typical components of site utilities plans include the following
information:
• New or existing utilities to service new facilities. Show sizes,
inverts, and location of connection to
existing lines.
• Existing site utility structures. Adjust to meet new grading
requirements.
• Site utilities. Show extent to within 1.5 m (5'-0") from
building. Reference Mechanical and Electrical
site utilities plans, if used.
Guidelines for Site Utilities Plans
• Ensure that the interface between site and building utilities are
at the same location.
• Check ground-floor elevation against spot elevations adjacent to
entrances.
• Check the location of curb cuts against new driveways.
• Check elevation of ledges supporting masonry shown on the
elevations against grade elevations
shown on Civil or Landscape plan.
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3.2.1.2 Landscape Plans These plans may include site preparation
(indicating structures to be demolished and plants to be
removed),
irrigation, and plant materials plans. Site preparation plans show
existing site features to be modified,
including planting to be removed, curbs to be cut, exterior
lighting, paving areas to be removed, and trees
to be protected. Irrigation plans dimension layout of the
irrigation piping and sprinkler heads and the
locations of controllers as well as their power supply. Plant
material plans show dimension layout of
landscape material, and designate plant types and their
quantity.
In addition to the items listed at the start of Type 1 Sheet, the
following list of items should be included on
all Landscape plans:
Typical components of site preparation plans include the following
information:
• Outline (at grade) and names of buildings and/or
structures.
• Walks, streets, curbs, parking areas, signs, planters, light
poles, and other site structures.
3.2.1.2.2 Irrigation Plans
• Layout of irrigation items. Dimension to the nearest fixed
point.
• Coordinate location of irrigation controllers with architectural,
mechanical, and power requirements
with Electrical plans.
Typical components of plant material plans include the following
information:
• Names of buildings and/or structures. Show outline (at
grade).
• Walks, streets, curbs, parking areas, signs, planters, light
poles, and other site structures.
• Layout of landscape materials. Dimension to nearest fixed
point.
• Show designations, location, spacing, and quantity of materials
for planting.
• Schedule of plant materials for each planting plan.
3.2.1.3 Structural Plans Structural plans include demolition,
foundation, and framing plans. These plans define support and
bracing
elements (columns and shear walls) of the building. Horizontal
support members such as beams, girders,
and trusses must be coordinated with other discipline elements
passing through or beneath them to
eliminate conflict among these disciplines.
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CADD Standards
In addition to the items listed at the start of Type 1 Sheets, the
following list of items should be included in
Structural plans:
Typical components of foundation and slab-on-grade framing plans
include the following information:
• Column piers and footings.
• Footings. Indicate top of footing elevations on all spread
footings. Also show top of pier elevations.
• Grade beams or walls required under masonry walls.
• Expansion, control, and seismic joints. Label, dimension, and
detail each. Indicate thickened edges
that will occur on each side of the joint for slabs on grade.