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Solidworks Exercise 1
Solidworks Exercise 2
Solidworks Exercise 3
Solidworks Exercise 4
Solidworks Exercise 5
Solidworks Model 1
Mechanical seals are leakage control devices, which are found on rotating
equipment such as pumps and mixers to prevent the leakage of liquids and
gases from escaping into the environment. A mechanical face seal is an
important component of variety of pumps used in chemical, petrochemical and
process industry.
The seal is designed to fit around the shaft or some part connecting to the shaft
in a way such that the leakage between the two regions is acceptably small
under all circumstances of operation.
Wherever the rotating shafts are used, shaft seals find their place with them.
Generally rotating shafts either run into fluids where the fluid is sealed by the
shaft seal or are supported by bearings, which are in turn sealed by a shaft seal.
Thus almost all rotating equipment require a shaft seal.
The various types of mechanical equipment that utilize shaft seals are as
follows:
Aerospace industries where motors and engines in rockets and turbo jets.
Water pumps used in irrigation, pumping of fertilizers and insecticides.
Swimming pool pumps and garbage disposal pumps, dishwashers and washing
machines use small sealed pumps.
Water turbines, steam turbines, feed pumps, and nuclear reactor cooling
pumps.
The petroleum, chemical, textile and drug industries all use pumps extensively
in their respective processes.
All automotive engines, compressors, air conditioners.
Ship propeller shafts as well as its auxiliary equipment in ship yards.
Solidworks Model 2
The sliding clamp is manually placed in the T-slot and screwed against the die
clamping edge. Once the high-pressure spindle has been adjusted to suit the
height of the clamping edge, the clamping force is built up by turning the
hexagon nut in a clockwise direction. The clamping force achieved depends on
the tightening torque selected with the torque wrench. If the parts are not rigid,
tighten the high-pressure spindle using the hexagon nut until there is no play.
Applications:
For clamping and locking dies on press beds and rams
On beds of machine tools
When the available space is limited
Solidworks Model 3
SolidWorks is a 3D solid modelling package which allows users to develop full
solid models in a simulated environment for both design and analysis.
Designing in a modelling package such as SolidWorks is beneficial because it
saves time, effort, and money that would otherwise be spent prototyping the
design. SolidWorks software provides users with an intuitive 3D experience that
maximizes the productivity of your design and engineering resources to create
better products faster, and more cost-effectively.
Today, most manufacturers of automobiles, arm and construction equipment,
recreational
vehicles and other gasket-using equipment apply three-dimensional (3D)
computer-aided
design (CAD) software to create product models. The technology allows
designers to produce engine and ultimately whole vehicle designs solely on
computers. By modelling in three dimensions, the designers can do
electronically all the spatial fitting of a components with respect to clearances
and tolerances, avoiding a lot of rework on actual hardware.
Solidworks Model 4
CAD software supplies the tools for both design and manufacturing to create
and explore various shapes, mechanisms, and structures. The software enables
all the geometries to effectively communicate together. In turn, you are able to
view and troubleshoot a concept without prototyping, cutting, forming, etc.
Solid models are characterized by the definition of 3D volumes, both interior
and exterior. In addition to volume and mass property data, Solid models
usually provide cross section and interference detection.
CAD 2D DESIGNS:
PRACTICE THE BELOW DIAGRAMS EITHER BY 2D OR 3D VIEWS.
USE ANY POPULAR SOFTWARES LIKE AUTOCAD, PRO-ENGINEER, CATIA, SOLIDWORKS,
UNIGRAPHICS, INVENTOR ETC