Civil Engineering Drawing.pdf
Transcript of Civil Engineering Drawing.pdf
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CE115 - Civil Engineering Drawing and Spatial Analysis
Civil Engineering Drawing Pt 1:Plan Reading & Structural Drawings
Christopher M. Monsere, Ph.D., P.E.Assistant ProfessorPortland State UniversityDepartment of Civil and Environmental [email protected]
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Outline
• Plan reading– Scale– Terminology
• Structural drawing– Steel– Concrete
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Plan Reading• Types of scales include:
– Engineers’ • Decimal• 10, 50, 20, 40, 30, 60
– Architects’• 2 scales per edge• Feet-inches• 1, 1/2, 1/4, 1/8, 3/4, 3/8,
3, 11/2, Regular, 3/32, 3/16
– Metric’
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Engineer’s Scale
1"3"30"30'300'
3 miles The Engineer's Scale expresses measurements as a ratio, dependingon the ratio assigned.
Actual Length
NTS: Not to scale
This means 30 gradations in the sale per inch
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Engineer’s Scale
1"
Actual Length
Given SCALE 1”=300’
There are always 10 gradations between units
660 feet
NTS: Not to scale
00 00 00
…then line that measures 1 actual inch represents 300 feet on drawing
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Engineer’s Scale
Given SCALE 1”=300’
NTS: Not to scale
325 feet
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Engineer’s Scale
NTS: Not to scale
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Don’t confuse 1:30 with 1”=30’SCALE 1”=30’
Paper Units : Actual Units
PU
AU=
1”
30’=
1”
360”= 0.0028
Reduction scale in ACAD
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Architectural Scale
• The scale
means how many inches per foot, so a ¾ scale means that ¾ inch equals one foot
• Each scale read from “0” closest definition
• Each unit represents 12 inches
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Architectural ScaleGiven SCALE 3/4”=1’
…this is a reduction scale..
Note this is always divisions of 1 foot. So, since this is sub-divided unit into 24 units. each 2 units is 1 inch.
This means ¾” = 1”
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Architectural ScaleNote that the sub-divided unit is divided into 12 units. Therefore, each unit is 1 inches.
Given SCALE 1/4”=1’
…then line that measures 1 paper inch represents 4 actual feet
It measures approx 14’-5”
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In-class Exercise
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Plan View (Top View)
Shows the horizontal alignment
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Stationing
• Given as:– STA + FT (or m)
• Typically: – stations in 100 ft or 100 m
• So the distance from STA 1+55 to 2+33– (assuming 100 foot stations)– (100-55) + (33) = 78 feet– OR– 233-155 = 78 feet
1 2 3
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Profile View (Front View)
Shows the vertical alignment
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Plan and Profile
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Slopes
• Angles sometimes given as V:H, read as “X on X” slope (RISE:RUN).
1V
5H
1:5
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Percent Slopes• Angles sometime given as % slope. A 2%
means for every 100 unit horizontal, there is a 2 unit change in the vertical.
2’
100’
-2%
2’
100’
+2%
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ElevationsA building elevation is typically labeled in relation to the compass direction it faces; the direction from which a person views it.
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Elevations
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Cross Section
Centerlines (CL) indicate center of alignment of structure
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Cross Section of Deck and HangersSource: Dorman Long (1932) Sydney Harbour Brige. Dorman Long & Co. Ltd., p35, http://sydney-harbour-bridge.bos.nsw.edu.au/engineering-studies/engineering-graphics.php
link
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Section View
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In-class Exercise• What if I don’t know
the scale or the drawing looks to have copied/zoomed, how could use a scale (ruler) to determine an object?
• Task: Make your own scale to measure the distance between DH-3-97 and DH-1-97
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Approximating scale
• Find a dimension on the plan sheet, measure it• Create your conversion based on PU:AU
PU
AU=
3.78”
76 m
So if I measure 3.15” on paper….
AU (m)=76 m
3.78 inPU (in)
AU (m) =76 m
3.78 in3.15 (in)
AU (m) = 63.33
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Structural Drawings• Structural drawings include:
– Foundation plans– Wall sections and framing details– Structural steel framing and details– Beam and column drawings and details
• Materials– Wood– Steel– Concrete– Masonary
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Approach
• Nearly all of the drawing principles that you have learned apply to structural drawing
• AutoCAD has “tools” built-in to help you draw elements faster
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Structural Steel• Two things to
design/draw– Structure
• Beams and columns
• Size, orientation, shape, length, placement
– Connections• Bolted, welded, or
riveted (not really used)
Colu
mn
Beam
Colu
mn
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Engineering design drawings
• Show the overall dimensions of the structure including:– Locations of columns, beams, angles and other
shapes– Sizes of structural members– Detail in the form of cross sections, special
connections required, and notes
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Structural Steel Shapes• Structural steel is
available in many standard shapes
• Most CAD programs have structural shapes symbol libraries available
Video Link
Nominally, depth and mass/unit, so shape is 14” tall 53#/ft
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Manual of Steel Construction
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Structural Steel
Plan View of One Floor
Dimensions in feet and inches, no ” symbol
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Shop drawings
• Consist of detail drawings of all parts of the entire structure showing exactly how the parts are to be made
• These drawings show all dimensions necessary for fabrication, usually calculated to the nearest 1/16”
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Piece Marks• A system is used to mark
each piece that is separately handled
• This mark is called a piece mark and should be shown wherever the member appears on the drawings
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Connections• Main members are joined together in the field
to build a structure and most joints are welded connections to the main members
• Riveting is seldom used as a connection but you may find reference to riveted joints in original plans
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Welding• Welding is a
common method for connecting steel members of buildings and bridges
• The principal methods of welding are:– Gas welding– Arc welding– Resistance welding
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Types of Welded Joints
• Butt joint• Corner joint• T-joint• Lap joint• Edge joint
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Types of Basic Welds & Symbols
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Complete Welding Symbol
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Fillet Welds
The arrow points to the joint where the weld is to be made. If weld symbol is below line, weld is made on leader arrow side. If above, opposite arrow. If both above and below, then both sides of joint.
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CAD Welding Templates
• Welding templates can simplify drawing welding symbols by hand
• They have all the forms needed for drawing the arrow, weld symbols, and supplementary symbols
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Simple Beam Connection
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In-class Exercise
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Has Design Been Constructed?
1. On sheet GW-34, mark locations of welds.
2. Review the WSDOT plans for the bridge. Based on the photos shown here, find as many clues that answer this question
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Concrete • Concrete is made by mixing sand, gravel,
or other aggregates with Portland cement and water
• Concrete is very good in compression, but weak in tension
• To solve this, embedded steel reinforcing bars are added to concrete– “Reinforced concrete”
• Prestressed concrete, – steel is pretensioned before the
superimposed load is applied
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Reinforced Concrete Drawings• Size of and shape of members
• Concrete material pattern shown in section
• Placement of reinforcing steel in section and plan views– Steel reinforcing shown as solid lines or filled
circles depending on view or section
AR-CONC HATCH pattern in ACAD
SOLID HATCH pattern in ACAD
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Reinforced Concrete Drawings
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Spiral Column Reinforcing
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Jackson School Road O’xing
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Jackson School Road O’xing
Bent 2
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Rebar Reinforcing Details