Cost effective and material qualitative 3D printer

Project Title

Cost effective and material qualitative 3D printer

Project Area of Specialization Artificial IntelligenceProject Summary

Innovative 3D Printers have come a long way in the last 2 years. It used to be the norm to be tethered to your printer and dedicate a whole computer to running your print jobs or even worse use SD cards to sneaker-net your printers. When we are creating our large-scale installations, we need our printers to run 24 hrs/day 7 days a week. This means we need ultimate reliability and can't be swapping USB cables and SD cards around. Some of the new printers have onboard networking and Wi-Fi which solves this problem. This is possible because of an open-source project called Octo-Print.

Octo-Print handles all the communication for your printer allowing Wi-Fi standalone printing. Octoprint runs on the immensely popular Raspberry Pi and with their new Model B+, it's simple and surprisingly inexpensive to add on Wi-Fi to your 3D printer.

Recently, Innovative 3D Printers is one of the major advancements because of its improved technology. Currently, there is a need for a modernized approach. To solve these two problems, the patients are given knowledge and information about disease diagnosis and prevention. Secondly, a reliable and readily available Innovative 3D Printer is required.

One hundred percent of students will be able to manipulate the printer to create a product servicing multiple interdisciplinary objectives. An innovative 3D printer is to create a visual model to enhance the learning experience of the content being delivered. For any new products, we can create a module through the 3D printer.

In our system, Innovative 3D printing or additive manufacturing is a process of making three dimensional solid objects from a digital file. The creation of an Innovative 3D printed object is achieved using additive processes. Innovative 3D printing enables you to produce complex shapes using less material than traditional manufacturing methods. The function of an Innovative 3D printer is to manufacture parts as it is an additive manufacturing technology that helps create complex geometries. Which would be almost impossible with traditional manufacturing like CNC etc.  Innovative 3D printing creates the part layer by layer.

Project Objectives

• Easy to use: It will be a very handy tool as it shows all the data collection and information by using just only the internet. So, it reduces workloads and stress.

• Better experience: For being connected to IoT, individuals can improve diagnostic accuracy as they are getting all the necessary data at hand. In a word, we can say that it allows monitoring continuously and remotely.

• Provide an accurate detection: By using this system, we can get the approximate results based on the design. Moreover, it will be less error, collect data in less time, and more accurate than any human performance.

• Reduce costs: When a patient gets health service at home on a real-time basis, there is no need for an unnecessary doctor or nursing visit. In particular, this project helps to cut down costs.

• Alert Engineers and Workers-Staff: Through IoT, engineers and work-staff can do their individual job without any hesitation as they can monitor from anywhere. Moreover, it will send alerts whenever a particular health parameter goes beyond the ideal limit. Furthermore, by receiving Message Notification and Support-Staff can take necessary action.

• Shows the outcome of the Job: By accessing Printing Job data in real-time information helps to decide for the Support-staff on how the Process is going on and what should do next. Overall, this project will enable the Engineers/Support-Staff to utilize the results from data collection and analyze that data in real-time.

• Non-expensive: This project's total cost will be less expensive than any other machines which are used in the Schools/Colleges/Universities/Work Stations. Moreover, it is compact, lightweight, and easy to use. Bridging the gap between doctor and patient:  In this way, this system creates communication between Engineers and Technicians by providing sufficient data.

Project Implementation Method

3D printing is an innovation wherein three-dimensional items can be made utilizing numerous meager layers stacked on top of one another. A laser at that point follows layers of the article causing the photograph polymer to solidify and is rehashed until wrapped up.

Since that point, there have been numerous enhancements for the innovation and it has advanced into utilizing something many refer to as material streaming. In which photograph polymer is radiated utilizing a multi-spout print head. After each layer is set a UV light is then used to solidify the material. This obviously must be utilized to print plastic-like materials and keeping in mind that printing metal amalgams are conceivable it is still very costly and test. The 3D printer expects to encourage learning by building up an innovative favorable position.

• Innovative 3D printing is something contrary to subtractive assembling which is removing/emptying a bit of metal or plastic with for case a processing machine.

• Innovative 3D printing empowers you to deliver complex shapes utilizing less material than customary assembling techniques 100% of understudies will have the option to control the printer to make an item adjusting different interdisciplinary destinations.

• Innovative 3D printer is to make a visual model upgrade the learning experience of the substance being conveyed.

• In Innovative 3D Printer any new creation we can make a module through the 3D printer. 3D printing or added substance production is a cycle of making three dimensional strong items from an advanced document.

• The formation of an Innovative 3D printed object is accomplished utilizing added substance measures.

• Innovative 3D printing empowers you to create complex shapes utilizing less material than conventional assembling techniques.

• The capacity of an Innovative 3D printer is to fabricate parts as it is an added substance fabricating innovation that makes complex calculations.

• In Innovative 3D printer, which would be practically inconceivable with conventional assembling like CNC and so forth

• Innovative 3D printing makes the part layer by layer.

This work is important for our drawn-out vision for democratizing the creation of IoT empowered items that can impart data flawlessly, all over the place and at whenever. 3D printed Web associated gadgets are a vital component of these future IoT gadgets with a wide scope of applications including detecting, gaming, following, and mechanical technology among numerous others.

Our present use model for printed Wi-Fi is for the client who is interfacing the 3D printed object to convey the Wi-Fi collector (e.g. Cell phone) that can unravel backscatter information. One can in guidelines use coding methods to accomplish a lot of higher reaches.

Benefits of the Project

Increase innovation
Print prototypes in hours, obtain feedback, refine designs, and repeat the cycle until designs are perfect

Improve communication
Hold a full color, realistic 3D model in your hands to impart more information than a computer image. Create physical 3D models quickly, easily, and affordably for a wide variety of applications.

Speed time to market
Compress design cycles by 3D printing multiple prototypes on demand, right in your office.

Reduce development costs
Cut traditional prototyping and tooling costs. Identify design errors earlier, and reduce travel to production facilities.

Win business
Bring realistic 3D models to prospective accounts, sponsors, and focus groups.

Personalize products
Personalize merchandise such as pens and other items at conventions. This can increase mindshare with potential clients.

Technical Details of Final Deliverable

Specification

• USB ports — these are used to connect a mouse and keyboard. You can also connect other components, such as a USB drive.
• SD card slot —Slot the SD card in here. This is where the operating system software and files are stored.
• Ethernet port — this is used to connect the Raspberry Pi to a network with a cable. The Raspberry Pi can also connect to a network via wireless LAN.
• Audio jack — It can connect headphones or speakers here.
• HDMI port — this is connected to the monitor (or projector) that is using to display the output from the Raspberry Pi. If your monitor has speakers, you can also use them to hear the sound.
• Micro USB power connector — this is where connect a power supply.  It should always do this last, after connected all your other components.
• GPIO ports — these allow connecting electronic components such as LEDs and buttons to the Raspberry Pi.
• Connecting the Raspberry Pi to the Internet

• Monitoring the Wi-Fi signal
• Link quality – Estimate of link quality expressed in %
• Signal strength – Signal strength measured in dB
• BSSID – MAC address of the access point the Wi-Fi sensor is connected to
• Channel – The Wi-Fi sensor should be dial-mode and support the 2.4GHZ and 5.0GHz.
• Bit rate – Bit rate established between the access point and sensor

Final Deliverable of the Project Hardware SystemCore Industry ManufacturingOther Industries Education , IT , Medical , Telecommunication Core Technology 3D/4D PrintingOther Technologies Internet of Things (IoT), OthersSustainable Development Goals Quality Education, Industry, Innovation and InfrastructureRequired Resources

Item Name	Type	No. of Units	Per Unit Cost (in Rs)	Total (in Rs)
			Total in (Rs)	50000
Extruder	Equipment	1	20000	20000
Filament rack	Equipment	1	1500	1500
Anyqubing P.F	Equipment	1	5000	5000
Fillament	Equipment	1	5000	5000
TFT Screen	Equipment	1	4000	4000
Fillament Sensor	Equipment	1	4000	4000
Raspberry Pie	Equipment	1	10000	10000
Cabel	Equipment	1	500	500