About the job
Design a DLP fire suppression system but it must be unique in design from others, especially the manifold. See the attached document on how the system works. Most of the design parameters are already provided in the attachments, and the system is relatively a simple one with many standard components. If not sure, please go through the reference material for guidance.
Main functions
Detection and suppression using a pneumatic heat detection tube.
Ability to charge the cylinder to pressurize it
Ability to charge the Heat Detection Tube
The manifold should be able to equalize the pressure in the tube and cylinder
Prevent the system from leaking pressure once it’s pressurized
Ability to connect a low-pressure switch
Ability to deactivate the system by de-pressurizing without discharging the suppression agent.
The system should have a way to relieve pressure either through a pressure relief valve or a built-in relief valve on the manifold
The system should be able to release a suppression agent through the heat detection tube once.
Ability to isolate the detection tube from the system, like maybe using a ball valve.
Deliverables
Assembly 3D model
Assembly drawing showing how parts are connected, fully detailed dimensions.
Exploded view showing all critical components of the system
Manufacturing drawings for all parts including machining tolerances if applicable
All CAD (Solidworks format drawings and 3D, also include step file for all the parts)
SLDPRT pa...
read more
Design a DLP fire suppression system but it must be unique in design from others, especially the manifold. See the attached document on how the system works. Most of the design parameters are already provided in the attachments, and the system is relatively a simple one with many standard components. If not sure, please go through the reference material for guidance.
Main functions
Detection and suppression using a pneumatic heat detection tube.
Ability to charge the cylinder to pressurize it
Ability to charge the Heat Detection Tube
The manifold should be able to equalize the pressure in the tube and cylinder
Prevent the system from leaking pressure once it’s pressurized
Ability to connect a low-pressure switch
Ability to deactivate the system by de-pressurizing without discharging the suppression agent.
The system should have a way to relieve pressure either through a pressure relief valve or a built-in relief valve on the manifold
The system should be able to release a suppression agent through the heat detection tube once.
Ability to isolate the detection tube from the system, like maybe using a ball valve.
Deliverables
Assembly 3D model
Assembly drawing showing how parts are connected, fully detailed dimensions.
Exploded view showing all critical components of the system
Manufacturing drawings for all parts including machining tolerances if applicable
All CAD (Solidworks format drawings and 3D, also include step file for all the parts)
SLDPRT part file (.sldprt), SLDASM assembly file (.sldasm), SLDDRW drawing file (.SLDDRW), and .step file formarts only
Standard parts to be used should include links where they can be procured
An illustration of how the system works using a video or graphic illustration
An illustration of how the system is installed using a video or graphic illustration
A detailed explanation of how the system works.
A clear rendering of the system installed in an electrical enclosure
Simulation or calculations showing engineering proof of concept that it can perform the functions.
read less
Design a DLP fire suppression system but it must be unique in design from others, especially the manifold. See the attached document on how the system works. Most of the design parameters are already provided in the attachments, and the system is relatively a simple one with many standard components. If not sure, please go through the reference material for guidance.
Main functions
Detection a...
read more
Design a DLP fire suppression system but it must be unique in design from others, especially the manifold. See the attached document on how the system works. Most of the design parameters are already provided in the attachments, and the system is relatively a simple one with many standard components. If not sure, please go through the reference material for guidance.
Main functions
Detection and suppression using a pneumatic heat detection tube.
Ability to charge the cylinder to pressurize it
Ability to charge the Heat Detection Tube
The manifold should be able to equalize the pressure in the tube and cylinder
Prevent the system from leaking pressure once it’s pressurized
Ability to connect a low-pressure switch
Ability to deactivate the system by de-pressurizing without discharging the suppression agent.
The system should have a way to relieve pressure either through a pressure relief valve or a built-in relief valve on the manifold
The system should be able to release a suppression agent through the heat detection tube once.
Ability to isolate the detection tube from the system, like maybe using a ball valve.
Deliverables
Assembly 3D model
Assembly drawing showing how parts are connected, fully detailed dimensions.
Exploded view showing all critical components of the system
Manufacturing drawings for all parts including machining tolerances if applicable
All CAD (Solidworks format drawings and 3D, also include step file for all the parts)
SLDPRT part file (.sldprt), SLDASM assembly file (.sldasm), SLDDRW drawing file (.SLDDRW), and .step file formarts only
Standard parts to be used should include links where they can be procured
An illustration of how the system works using a video or graphic illustration
An illustration of how the system is installed using a video or graphic illustration
A detailed explanation of how the system works.
A clear rendering of the system installed in an electrical enclosure
Simulation or calculations showing engineering proof of concept that it can perform the functions.
read less