Jounral : week 13

Monday: Worked on adding furniture in the house on envisioner. Finished the bedrooms.
Tuesday: Worked on architecture booklet. Finished title page, research page and rough draft page.
Wednesday: Worked on architecture booklet. Finished next 3 pages.
Thursday: Finished adding furniture in the house. Made title block.
Friday: Finished the rest of the booklet. Made folders and jpegs.

Booklet

Research

                                    

The large window adds natural light to the dining area.

This image shows how the foyer branches off to different rooms, the dining area is straight ahead which is similar to my residential home.

                                     

This is another image showing how the foyer can be used.

This image shows how I want the bathroom to look like, which everything symmetrical.





              

This image shows how I want the skylights, shining down on the eating area.









This image shows how i want the skylights around the working area, to add natural light.





Design Statement

K@Architecture is defined by the residential houses of dreams. We design your dreams and make them come true. This cottage-like house brings you the vision of all fairytales.

The open-concept house has skylights which has light shining down upon you. The large foyer add the ability to move around in for all ages and all disabilities, the sliding doors add to this accessibility. By the entrance, are the bedrooms which are fit for you to rest and relax after a busy day. This easy to get around in house is for the relax-less people living their day-to-day lives.

This one floor-open concept residential house has two bedrooms, two bathrooms, a living room, dining area and kitchen which are beside each other. The bedrooms are 17 ft x 18 ft. The bathrooms are 8 ft x 18 ft. The kitchen, living room and dining area have 50 ft x 17 ft of room. The foyer which branches into these rooms is 26 ft x 16 ft.

K@Architecture would like to send our appreciation to   Mr.Dobrowoski for the help in design.

The creators of your residential,

K@Architecture 

           

Journal 12

Monday: Worked on rendered title block.
Tuesday: Completed wire frame and hidden lined title block.
Wednesday: Completed evelation on title block.
Thursday: Completed all title blocks.
Friday: Added outdoor decorations on envisioner to the house.

Journal 11

Monday: Worked on rhino and showed grade eight's what we did in the course.
Tuesday: Completed rhino work and worked on residential house. Added more skylights and took out wall seperating dining area and foyer.
Wednesday: Worked on house, the title block. Finished wire frame title block.
Thursday: Finished title block with floor plan.
Friday: Worked on house, changed walls.

Rhino

Rhino

Envisioner House Title Block

Envisioneer 6

Week 9: Journal

Tuesday: grade 11's worked on their house. Im working on it on AutoCAD
Wednesday: "
Thursday: finished house on AutoCAD today.
Friday:

Contemporary Drawing

Chapter 12

Bubble House Diagram

Week 7: Journal

Monday: Lecture on Architecture and Engineering, we had to go on moodle and make our own notes.    
Tuesday: Learned how to use Envisioner and worked on making our house.    
Wednesday: Learned how to use Rhino and made 5 shapes, tried making a car.
Thursday: Absent today.
Friday: Research on houses, made bubble diagram of our house.

Rhinoceros 4.0

Graphics Communication

Graphics Communication Introduction:

• Engineering drawing is a language used to relate and communicate ideas between professionals and non-professionals if need be.
• Learning the language of technical graphics allows you to visualize problems more clearly and use graphic images to find solutions with more ease.
• Importance of Engineering drawing: Visualization, Communication, & Documentation
• 92% of the design process is graphically based.
• Why is graphics design so important?
• Try to describe to someone a product in words that will later need to be manufactured or built. It’s harder than with words.
• Engineers must fulfill two important aspects of design: Aesthetics and Function

Engineering Design Process Introduction:

• Design: process of conceiving or inventing ideas & communicating those ideas to others.
• It requires input from such areas as customer needs, materials, capital, energy, time requirements, & human knowledge/skills

Engineering Design Process raditional Engineering Design:

• It is a linear approach divided into a number of steps. It moves through each step in a sequential manner; if problem comes up, the process may return to previous step (called iteration or looping)

Engineering Design Process oncurrent Engineering Design:

• It is a nonlinear team approach to design that brings together the input, processes, & output elements necessary to produce a product.
• The people & processes are brought together at the beginning (not typical in linear)
• Team made up of: design & production engineers, technicians, marketing & finance personnel, planners, & managers.
• Three activities that make up the concurrent design process are: Ideation, Refinement, & Implementation.
• 3-D Modeling is extremely important in this type of design process.

Graphics CommunicationWhat you Will Learn:

• Visualization: the ability to mentally control visual information
• Graphics Theory: geometry and projection techniques
• Standards: sets of rules that govern how parts are made and technical drawings are represented
• Conventions: commonly accepted practices and methods used for technical drawings
• Tools: devices used to create engineering drawings and models, including both hand-held and computer tools
• Applications: the various uses for technical graphics in engineering design, such as mechanical, electrical, and architectural

Graphics CommunicationTechnical Drawing Tools:

• Three basic types of drawings: Freehand sketches, Instrument drawings, & Computer Drawings and models.
• Most widely used tool is computer-aided design/drafting (CAD). CAD is a computer software and related computer hardware that supplements or replaces traditional hand tools in creating models and technical drawings.

Graphics CommunicationTraditional Tools:

• Traditional Tools are devices used to assist the human hand in making technical drawings. Straighter lines, perfect circles, & faster speed of drawing

They included:

• Wood & mechanical pencils
• Instrument set, compass & dividers
• 45- & 30/60-degree triangles
• Scales
• Irregular curves
• Protractors
• Erasers & erasing shields
• Drawing Paper
• Circle Templates
• Isometric templates

Graphics CommunicationParts of a CAD System:

• CPU (hardrive)
• Input (mouse/keyboard)
• Output (monitor/printer)
• Operating System (Windows/Mac)
• Software (Microstation, Auto-CAD)

Graphics CommunicationThe Hardrive:

Graphics CommunicationCAD Software:

Common basic features:

• Commands to generate geometry
• Functions for controlling views
• Modifiers for changing drawing geometry
• Annotation Commands for adding text, dimensions, and notes
• Others

Graphics CommunicationEngineering Design Uses Sketching & CAD:

• Ideas are initially sketched and then more accurate CAD drawings are created
• A single accurate CAD database can be used to go from ideation to manufacturing and documentation
• Finite Element Analysis, 3-D Rendering, Animation, Documentation, Rapid Prototyping software are available for use with CAD

Graphics CommunicationTerminology:

• CAD: Computer Aided Design
• CADD: Computer Aided Design & Drafting
• CAM: Computer Aided Manufacturing
• CIM: Computer Integrated Manufacturing
• CAE: Computer Assisted Engineering
• CAPP: Computer-Aided Process Planning
• MRP: Material Requirement Planning
• EDM: Enterprise Document/Data Management
• CAE: Computer Assisted Engineering
• Blue Print Reading: Interpreting drawings made by others

Engineering Drawing

Engineering DrawingIntro:

• An effective means of communicating technical ideas & solutions using a clear and precise language with definite rules and regulations
• The primary medium for communicating and developing design concepts
• It removes language barrier between technical & non-technical audiences
• Follows a system of standards

Engineering DrawingStandards:

• Standards ensure that drawings convey the same information to everyone who interprets them
• Standards organizations like ANSI (American National Standards Institute) & ISO (International Standards Organization) publish standards detailing how drawings should be created so they can be interpreted universally
• Example: ANSI Y14.5M-1994-Dimensions and Tolerance

Engineering DrawingStandards:

Engineering DrawingsConventions:

• Conventions are commonly accepted practices, rules, or methods (i.e.. hidden lines, dimension lines…)
• Most important convention is Alphabet of Lines established by ASME called linestyles
• Line patterns communicate what the line represents in the drawing
• Line patterns tell you information such as whether the line is hidden, visible, or a centerline
• Views should be selected to minimized the use of hidden lines
• Precedence of lines: Visible à Hidden à Center
•