Browsing by Author "Momin, Zia"
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Item Automatic seat belt(AIKTC, 2015-05) Momin, Zia; Khan, Shaibaz Ahmed (11ME32); shaikh, Faiyaz Alam (11ME51); shaikh, Javed Akhtar (11ME52); Khan, Uzair Ahmed (12ME67)Motor vehicle accidents have grown to be a major cause of death and injuries. We are developed occupant safety feature with an intension to reduce accidental injuries to occupants. After studying number of design plans and research papers, we have concluded to design and develop seat belt safety mechanism using spring and rope mechanism. In case of accidents, passenger lives can be saved greatly by use of seat belts and airbags in the automobiles. The safety implications of these systems and the stringent safety regulations in the world have brought a growing market to these products. The purpose of developing the project is to design alternate method of seat belt safety mechanism without changing the available space in the car and also to provide safety to occupants in those cars in which air bags and other safety system could not be implemented due to increase in cost.The actuating system design includes three point seat belt, spring, wire rope ,solenoid and locking mechanismsItem Design a control system for muscular dystrophy patient(AIKTC, 2018-05) Momin, Zia; Khan, Jawwad(14ME20); Gupta, Amit(14ME14); Khan, Mehshar(13ME26); Patel, Ovais(14ME41)According to census made in 2011 there were approximately 54 lakh patient suffering from movement disability. Our aim is to design & fabricate 3wheeler dual controlled system vehicle which will be driven by both escort as well as the handicap person. This vehicle will help to increase the travelling range of handicap persons by increasing their mobility. The side-car was designed on Solidworks & after all sorts of analysis positive results were shown. The side-car will be coupled to the aprilia sr150. The handicap person travelling on wheelchair will be entering into the side-car with the help of motorized ramp. This vehicle will be driven by handicap person using joystick which will be controlling basic things like steering, acceleration & brakes. For safety of the handicap person we will be using special E-Z lock & seat belt arrangements. In case of emergency separate kill switch arrangement will be given. Our project will change the travelling sense of handicap people to live a better & normal life & help them travel across the society. KEYWORDS: Side-car, Joystick, Motorized-ramp, E-Z lockItem Design and analysis of all terrain vehicle(AIKTC, 2015-05) Momin, Zia; Shaikh, Rahil (11ME63); Mapari, Saad (12ME76); Shaikh, Mohd. Ijaz (11ME54)Our project is to design and analyze the ATV that would help to automotive and transportation sector in India to flourish by introducing of low cost automation and effective design and usage of machinery. We have made an ALL TERRAIN VEHICLE with individual suspension system having the power high enough to carry out transportation in rough terrains. Following are the objectives of the project: Design of a low cost machine taking into consideration the power output that is required for its working. Calculation of stresses acting on the chassis of the vehicle under different loading conditions. Deciding the cost efficiency of such product in terms of large scale manufacturing i.e. final product. The product can prove to be very efficient product in its all aspect such as cost, durability, maintenance, easy usage, better transportation medium in rough terrains etc.Item Design and development of drive and steering mechanism of an automated guided vehicle (AGV)(AIKTC, 2015-05) Momin, Zia; Bhosale, Prasad (11ME45); Chavan, Manoj (11ME18); Dubey, Devang (11ME19); Koli, Aniket (11ME34)Autonomous Guided Vehicle or AGV is one of material handling equipment that has been widely used in most manufacturing industry today as it provides more flexibility to the systems. The basic concept of the AGV incorporates battery-powered and remotely operate vehicles with programming for path selection and positioning. This project includes the designing for this AGV. Using software SOLID WORKS, the design of the vehicle can be done with the respect of specification needed. The drive and steering mechanism is an important system of any AGV as the navigation of the AGV is totally governed by the drive and steering mechanism. The types of AGV, the basic concept, the classifications of the AGV and the steering mechanism that usually used in common AGV will be reviewed. Then, this project will be focusing on the mechanical design concept of the AGV which combines knowledge on parts such as the electric motor, gears, gear head, wheel, bearing, coupling of the AGV and others mechanical parts that are essential for this project.Item Design and development of electromagnetic engine(AIKTC, 2020-05) Momin, Zia; Ansari, Fuzail Khilafat (13ME11); Syed, Afsar Shah Anwar Shah (18DMET01); Shek, Jamir Shek Rafik (17DME151); Shaikh, Mohammed Irfan Abdul Khalique (17DME146)With the diminishing fossil fuel resources and unabated increase in energy costs and environmental concerns, engines using alternate energy sources such as bio-fuel, solar power, wind power, electric power, stored power, etc. are being developed around the world. However, such engines have many limitations. Production of biofuel takes enormous resources and they still pollute the environment. They do not meet the ever increasing energy demand as well. Similarly, the solar power is not efficient. Added to all, the initial capital and subsequent maintenance costs for machines that use alternate energy sources are very high. Hence, in the absence of a viable alternative, until now, switching to new technology by changing from traditional Internal Combustion engines has been a challenge.Item DESIGN AND FABRICATION OF SIDE CAR FOR MUSCULAR DYSTROPHY PATIENT(AIKTC, 2018-05) Momin, Zia; Chaudhary, Mohd. Faisal(14ME10); Ansari, Rehan(14ME04); Shaikh, Mohd. Adil(14ME48); Siddiqui, Mohd. Irfan(14ME55)According to census made in 2011 there were approximately 54 lakh patient suffering from movement disability. Our aim is to design & fabricate 3wheeler dual controlled system vehicle which will be driven by both escort as well as the handicap person. This vehicle will help to increase the travelling range of handicap persons by increasing their mobility. The side-car was designed on Solidworks & after all sorts of analysis positive results were shown. The side-car will be coupled to the aprilia sr150. The handicap person travelling on wheelchair will be entering into the side-car with the help of motorized ramp. This vehicle will be driven by handicap person using joystick which will be controlling basic things like steering, acceleration & brakes. For safety of the handicap person we will be using special E-Z lock & seat belt arrangements. In case of emergency separate kill switch arrangement will be given. Our project will change the travelling sense of handicap people to live a better & normal life & help them travel across the society.Item Design and instalation of additional control system of side car scooter and chassis modification for stability improvement(AIKTC, 2019-05) Momin, Zia; Bairagdar, Hasnain (16DME130); Kazi, Saud (16DME143); Khan, Abdul Ahad (16DME144); Khan, Faizur Rehman (16DME149)According to census made in 2011 there were approximately 5,436,604 patient suffering from movement disability. Our aim is to design and install additional control system of side-car scooter which was designed by previous batch students and chassis modification for stability improvement which will be driven by both escort as well as the handicap person. This vehicle will help to increase the travelling range of handicap persons by increasing their mobility.Additional Steering system is mounted in side-car compartment along with a lever to accelerate and decelerate the vehicle.The side-car will be coupled to the aprilia sr150. This vehicle will be driven by handicap person using electric power steering (EPS) mounted in side-car compartment which will reduce the effort to steer to a greater extent. In case of emergency separate kill switch arrangement is given which will avoid any mis-happening while driving. Our project will change the travelling sense of handicap people to live a better and in-dependency life and help them to travel across the society with ease.Item Design and installation of additional control system of side-car scooter and chassis modification for stability improvement(AIKTC, 2019-05) Momin, Zia; Biragdar, Hasnain [16DME130]; Khan, Faizur Rehman [16DME149]; Khan, Abdul Ahad [16DME144]; Kazi, Saud [16DME143]According to census made in 2011 there were approximately 5,436,604 patient suffering from movement disability. Our aim is to design and install additional control system of side-car scooter which was designed by previous batch students and chassis modification for stability improvement which will be driven by both escort as well as the handicap person. This vehicle will help to increase the travelling range of handicap persons by increasing their mobility.Additional Steering system is mounted in side-car compartment along with a lever to accelerate and decelerate the vehicle.The side-car will be coupled to the aprilia sr150. This vehicle will be driven by handicap person using electric power steering (EPS) mounted in side-car compartment which will reduce the effort to steer to a greater extent. In case of emergency separate kill switch arrangement is given which will avoid any mis-happening while driving. . Our project will change the travelling sense of handicap people to live a better and in-dependency life and help them to travel across the society with ease. Keywords: side-car, chassis, electric power steering (EPS)Item Design, development and fabrication of chassis and suspension for four wheel electric scooter for handicapped for indoor and outdoor use(AIKTC, 2016-05) Momin, Zia; Khan, Shahrukh (12ME32); Khan, Salman (12ME31); Khan, Sadique (12ME30)This report aims to model, simulate, perform the static and dynamic analysis and fabrication of four wheel electric scooter chassis consisting of circular pipe and square beams. Modeling, simulation are performed using modeling software i.e. SOLIDWORKS and analysis on ANSYS. The maximum deflection is determined by performing static analysis and dynamic analysis. As we had to customize this scooter so it can be use for indoor purpose also so keeping in mind we had design our chassis. Strength and light weight were our basic consideration throughout the design of the chassis of electric scooter. Hence, AISI1018 was selected as an appropriate material for design which is medium carbon steel with properties such as light weight, high tensile strength, high machinability, better weldability, etc. All the impact and stresses were calculated manually by considering the severe working condition and then the design was analysed in the analysis software. Step by step modification in design we made as found necessary and as analysed on the software. After the complete analysis and the approval of design by inspecting it in all the modes of failure the design was finalized and was selected to fabricate which will not fail in any extreme criteria of stresses or load induced.Item Design, development and fabrication of transmission and steering system for four wheel electric scooter for handicapped for indoor and outdoor use(AIKTC, 2016-05) Momin, Zia; Khan, Altmash (12ME23); Khan, Farooq (12ME25; Khan, Faisal (12ME24); Shaikh, Soofiyan (12ME58)In this project, we have designed and developed transmission system and steering system of a 4 wheel electric mobility scooter for handicapped for indoor and outdoor use. Moreover, it has been specifically designed for a particular patient who is disabled by lower limbs. Therefore we have made it customized that is according to the patient body dimensions, needs or requirements. In this project, the electric scooter circuits were designed and made simple to operate. Other than that, the maintenance of the designed electric scooter in this project is low because the components used are connected to one set of batteries. Proper circuit diagrams and connections were made using various electronic components to solve the issue of operating two controllers through a single throttle and reversing of the motor. In this project the power supply of the motor and the microcontroller is from a single input. Next, a microcontroller is used to control the direction and speed of DC motor. In addition, an interface is used between the user and the controller of electric scooter, toggle switch and limit switch. Finally, the transmission and steering system were assembled on the chassis and testing and tuning were done for successful completion of the project.Item Design, development of suspension and steering system for four wheel electric scooter for handicapped for indoor and outdoor use(AIKTC, 2021-05) Momin, Zia; Shaikh, Mohammad Affan Salim (18DME45); Ansari, Ruman Ahmed Rafeeque Ahmed (18DME36); Ansari, Areeb Jamshid (18DME02); Areeb, Jamshid (18DME02)This report aims to the design, development and improvement of four-wheel electric scooter suspension and steering systems. The improvements in the existing project is made based on certain predefined problems and are considered in reference to the comfort of the handicapped. The maximum deflection is determined by performing static analysis and dynamic analysis. Moreover, it has been specifically designed for a particular patient who is disabled by lower limbs. Therefore, we have made it customized that is according to the patient body dimensions, needs or requirements. As we had to customize this scooter so it can be used for indoor purpose also so keeping in mind, we had considered the comfort of the driver as our key motto and accordingly we researched on not only one but we considered three varieties of suspension. All the impact and stresses were calculated manually by considering the severe working condition and then the design will be analyzed in the analysis software. Step by step modification in design we made as found necessary. After the complete analysis and the approval of design by inspecting it in all the modes of failure the design was finalized the suitable system.Item Failure analysis of mechanical seals(AIKTC, 2020-05) Momin, Zia; Deshmukh, Soban Aslam Khan (16ME19); Khamkar, Bilal Athar (16ME26); Pathan, Tavit Ayub (17DME135)This report discussesthefinaldraftofthechosentopic,which entitled Failure Analysis in the MechanicalSeal.Sealface crack propagationisoneofthemajorcauseswhichleadtothefailureofthe mechanicalsealthereforeanalysesonthesealbeforehandisimportant. Normallyfailurehappensduetothiscrackwhichmayhappenasearlyas aftertwomonthaftertheinstallationofthemechanicalseal.Item Fundamentals of mechanical vibrations(AIKTC, 2019) Momin, ZiaItem Hybrid remotely operated underwater vechicle(AIKTC, 2017-04) Momin, Zia; Shaikh, Furqan (14DME167); Temrikar, Aasim (14DME170); Mulla, Zafar (14DME156); Khan, Hamza (14DME150)The human brain is full of creativity. Every now and then man aspires of innovative ideas to quench his thirst for various needs and gain technical breakthrough. Keeping the above important fact in mind, we came up with the idea of HROV, the design and mechanism is purely innovative. The aim is for designing and manufacturing of HROV is for serving the purpose for the industries of military, civilian use: broadcast use hobby use hydrographic survey, pipeline surveys, jacket inspections and marine hull inspection of vessels enquiring drowned people from rivers and sea. HROV is used to investigate under water. Now a day, with the advancement of technology it is used not only investigation but also to battle and mining operation. Sometimes there are some problems throughout the rivers in our country. Many people are lost their lives because of drowning of boat or water vehicle. Therefore, a HROV is designed to solve this problem by investigation underwater. Water and propeller driven by gear motor are used for driving the HROV. It is derived on the principle of jet propulsion. Water is sucked by a propeller which is derived by a pump motor. Then the water passes through the nozzle. Whole system is controlled by microcontroller. Moreover, the system is controlled with the help of remote control.. This design is done perfectly to reduce drag force. Therefore it is an effective design. This investigation has involved the design, construction and testing of a HROV and has allowed a more thorough understanding of key fluid mechanic principles.Item Improvement in design of chassis and transmission system of a four wheel electric scooter for handicap(AIKTC, 2021-05) Momin, Zia; Shaikh, Kashif Parvez (18DME44); Deshmukh, Tauqir Mubin (18DME13); Shaikh, Mohammed Talha A Rashid (18DME46); Shaikh, Hazim Naiyer E Azam (18DME43)This report aims to model, simulate, perform the static and dynamic analysis of a four wheel electric scooter chassis consisting of square and rectangular beams. modeling and simulation are performed using modeling software that is AUTODESK INVENTOR and analysis on ANSYS. The maximum deflection is determined by performing static analysis and dynamic analysis. As we had to customize scooter so it can be use for indoor and outdoor purpose both. Keeping that into mind we had design our chassis. Strength and light weight were our basic consideration through out the design of electric scooter. Hence, AISI1018 was selected as an appropriate material fir design which is medium carbon steel with properties such as light weight, height tensile strength, higher machine ability, better weld ability etc. All the impact and stresses were calculated manually by considering the severe working condition and then the design was analyzed on the software. After the complete and the approval of design by inspecting it in all the modes of failure type design was finalized.Item Project report on “voice actuated folding table"(AIKTC, 2022-05) Momin, Zia; Nazir, Abdulla Abdul Majid (19DME01); Hatodkar, Adina A.R (19DME07); Khan, Md. Siddiq Naeem (19DME13); Khan, Md. Ibrahim Firoz (19DME14)Space-saving furniture design is prevalent in our daily lives and businesses, taking into consideration that the average living space of people in the world’s major cities is shrinking. Amidst the rising cost of living, the demands for economical and transformable space-saving furniture are increasing. With rapid increase in smart homes market, increasing demand for small and studio apartments, foldable furniture market is growing every day. Keeping that in mind, we had to customize the table so it can be used for space saving and automation purpose. Strength, light weight, Cost effectiveness, Voice control and space saving were our basic considerations throughout the design the table. Wood was selected as an appropriate material for design of the table because of its properties such as lustre, odour, texture, grain, figure, weight, and hardness and the links are made up of aluminium because of its advantageous properties such as strength, lightness, corrosion resistance, formability and durability. The folding table mechanism is based on Planar quadrilateral linkage, 4R linkages have four rotating joints. One link of the chain is usually fixed, and is called the fixed link. The two links connected to the frame are called the grounded links and are generally the input and output links of the system. The last link is the floating link, which is also called a coupler or connecting rod because it connects an input to the output. The table is equipped with 2 servo motors to link the parts and bring table movement. Arduino, an open-source computer hardware and software is applied to control the robotic arm by driving servo motors using Bluetooth module HC-05 which is used for Voice control and is capable to modify the position of the table. All the impact and stresses were calculated by considering the working conditions and the design was analysed on the software. After the complete inspection of design in all modes of failure the design was finalized and a prototype was fabricated.Item Windows evaporative cooler(AIKTC, 2022-05) Momin, Zia; Khan, Lukman (18ME61); Momin, Tauheed (18ME64); Sayyed, Shadab (18ME85); Sayed, Salman (17ME71)Window evaporative cooler is an efficient and effective solution for conditioning a confined space or area where many aspects of air-conditioning are taken into consideration also keeping the cost budget friendly and environment friendly. In locations having high dry bulb temperatures and low relative humidity such as deserts application of evaporative coolers is highly effective and for places with humid weather conditions slight modification of cooler is needed to serve the purpose of cooling and dehumidifying the air. Evaporative coolers generally consist of wood-wool pads as evaporative surfaces and are bulky in size. The requirement of size reduction in urban developments is high and with growing air pollution and airborne diseases proper filtration is a must. So, bringing in modification of a filter system to the traditional cooler systems is necessary as health should be the first priority. And moving forward to make most of the renewable resources of energy; in this case solar panels for electricity generation making, it eco-friendly.