MECHANICAL DRAFTER

Detail Drawing   Solidworks is usser friendly  software, in this software you can making detailing break of part, make annotation, and making view section detailing. first you must making part then you open new drawing.   example of detail drawing.  Drafter must know ho to create detail drawing because detail drawing is use for production of product company. Zig zag section view It's use to view zig zag cut of your design. see my video to learn it  click this link picture of zig zag section Broken out section view and break view broken out section use to see part if the part cut off with some depth. Break view can use by drafter to cut the long design and make it shorter. See my simple video to learn it  click this link picture of broken out section view and break view Detailing view Detailing view use to see the model with bigger scale on some position. see my simple video  click this link picture of detailing view I have si

What is Production Drawing? Production drawings [1] [2] [3]  (sometimes called  working drawings ) are complete sets of  drawings  that detail the  manufacturing  and  assembly  of  products  (as distinct from engineering drawings prepared by and/or for production engineers whose task it to decide how best to manufacture the products). Machine operators, production line workers and supervisors all use production drawings. Design engineers also use  orthographic  or pictorial views called "working cases" to record their ideas. These preliminary sketches are used as the basis for both the component and assembly drawings. Production drawings are 'drawn' (graphic) information prepared by the  design  team for use by the  construction  or  production  team, the main purpose of which is to define the size, shape, location and production of the building or  component '. Orthographic projections  are often supplied, giving views of machine parts and their assemb

Mold Design using SolidWorks    Picture of mold tools Mold tooling in solidworks is multi steps procces. Where you must create part or model in the first. so many way to create molding core cavity in SolidWorks. 1. open the file of part or you can import part to SolidWork 2. Repair file of part    - This step if your part design have a some trouble in surface of part design. SolidWorks can repair it use import fiture diagnostic. 3. Check the correct of draft design   - this steps used for checking mold tooling product. You can use draft analysis fiture. 4 Repair the face (un-draft)  - If your product have some trouble in draft you can use draft in command manager mold tools. 5. Scale  - The product design must bigger than the real product. Because if the product opened, the product become smaller. 6. Setting parting lines  - parting lines must be create, it use to set parting surface in the future. 7. Create shut-off surface for hole on pruduc

   <<< Please click translate corner on side bar if you want to change the language, then click heading post to change a post language. Pengenalan surface     Solid bodies dan surface bodies adalah dua hal yang berbeda namun untuk seseorang pemula akan nampak hampir sama antar keduanya. Drafter dituntut mengerti apakah yang dia gambar itu termasuk dalam surface atau solid bodies. Formasi solid bodies dan surface bodies:   1. Geometry       Geometri menggambarkan bentuk, sesuatu yang menentukan apakah benda nantiya datar atau melengkung   2. Topology       Topology menjelaskan tentang relation model yang dibuat (hubungan):       - Sisi dalam vs sisi luar solid.       - Ujung-ujung yang bertemu        - Ujung-ujung yang membentuk sisi.       - Ujung-ujung yang berada diantara dua surface yang berdekatan. This dibscription below shows the correspondence between the two types of information:     1. Topology         - Face         - Edge      

Bolts vs. screws Main article:  Screw § Differentiation between bolt and screw Bolted joint  in vertical section Screw joint    The distinction between a bolt and a screw is commonly misunderstood. There are several practical differences, but most have some degree of overlap between bolts and screws.     The defining distinction, per  Machinery's Handbook , [2]  is in their intended purpose: Bolts are for the assembly of two unthreaded components, with the aid of a  nut . Screws in contrast are used with components, at least one of which contains its own internal thread, which even may be formed by the installation of the screw itself. Many threaded fasteners can be described as  either  screws or bolts, depending on how they are used.     Bolts are often used to make a  bolted joint . This is a combination of the nut applying an axial clamping force and also the shank of the bolt acting as a  dowel , pinning the joint against sideways  shear forces . For

SHEET METAL     Sheet metal  is  metal  formed by an industrial process into thin, flat pieces. It is one of the fundamental forms used in  metalworking  and it can be cut and bent into a variety of shapes. Countless everyday objects are fabricated from sheet metal. Thicknesses can vary significantly; extremely thin thicknesses are considered  foil  or  leaf , and pieces thicker than 6 mm (0.25 in) are considered  plate .     Sheet metal is available in flat pieces or coiled strips. The coils are formed by running a continuous sheet of metal through a  roll slitter .     In most of the world, sheet metal thickness is consistently specified in millimeters. In the US, the thickness of sheet metal is commonly specified by a traditional, non-linear measure known as its  gauge . The larger the gauge number, the thinner the metal. Commonly used steel sheet metal ranges from 30 gauge to about 7 gauge. Gauge differs between ferrous  (iron based)  metals and nonferrous metals such as alu

CONFIGURATION     we can control the 3D model using microsoft excel, we can create system where we just enter size parameter in microsoft excel then the model change following the size entered. Solidworks have some methods,     I will try to use add configuration method to control my 3D model. First time you must have a part of 3D model. STEP of configuration so many step of configuration, bbut i create a simple video to discribe this step. you can clik the link below. click this link to practice  https://www.youtube.com/watch?v=wNqptoREbms  

USER INTERFACE Tampilan muka atau user interface perlu diketahui oleh para drafter agar memudahkan para drafter dalam membuat suatu design, perhatikan gambar untuk memudahkan saudara memahami user interface pada software autodesk inventor. User interface Autodesk Inventor bisa kita lihat pada gambar  1   . Ribbon toolbar, berisikan perintah yang digambarkan dalam bentuk icon-icon kecil yang dapat membantu para drafter dalam menganalisa dan membuat design 2   . View cube, diguakan untuk menampilkan view sesuai dengan yanng drafter inginkan supaya lebih enak dalam membuat design (tampak atas, depan, bawah, kanan, kiri ataupun tampak home) 3   . Graphic windows, digunakan untuk melihat proses membuat sketch, membuat 3D, membuat analisis dan gambar kerja yang dibuat 4  . Object History, digunakan untuk melihat urutan proses pembuatan design yang nantinya memudahkan para drafter untuk mengedit ataupun mengavaluasi model yang mereka buat. 5  . 3D indikator, digunak

Autodesk Inventor    Autodesk salah satu produk dari Autodesk Corp. yang di peruntukkan untuk engineering design dan drawing . Autodesk Inventor merupakan produk dari CAD setelah Autocad dan Autodesk Mechanical Desktop.      Autodesk Inventor memiliki beberapa kelebihan dari Pada Autocad sehingga memudahkan Drafter dalam design  serta tampilan yang lebih menarik dan real . Keunggulan Autodesk Inventor adalah : 1. Memiliki kemampuan Parametic Solid Modeling , yaitu kemampuan untuk melakukan  design serta pengeditan dalam bentuk solid model dengan data yang telah tersimpan dalam data base. Dengan adannya kemampuan tersebut drafter/engineer dapat merevisi atau memodivikasi design yang ada tampa harus mendesign ulang sebagian atau seluruhnya . 2. Memiliki kemampuan Animation , yaitu kemampuan untuk menganimasikan suatu file assembly mengenai jalannya suatu alat yang telah di assembly dan dapat disimpan dalam file AVI. 3. Memiliki kemampuan Automatic Create Technical 2D draw