Projects and Research
KITTING STATION(NEP)
The Kitting Stand has been meticulously designed to efficiently accommodate the numerous components of the two 6000cfm remote humidifiers. With the product's intricate assembly, this stand serves as a vital tool for facilitating the seamless transportation of these components across the 200-meter assembly line workshop. Its mobility is enhanced through the inclusion of four wheels, ensuring easy maneuverability, and it is optimized to grant technicians convenient access to the components.
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When assessing the load-bearing capabilities of the Kitting Stand, two key considerations are taken into account. Firstly, the static load, represented by the combined weight of the components, totals approximately 240 pounds. Secondly, dynamic loading is a critical factor, as the entire kit station is lifted and relocated to the second floor of the assembly area by a forklift. This dynamic loading analysis accounts for the structural load, the weight of the parts, and the forces exerted during the lift, focusing on the base as the primary area where these forces fluctuate due to the forklift's speed and other related movements.
WELDING JIG(NEP)
Introducing our precision-engineered jig, a compact yet invaluable tool designed to enhance welding efficiency in the placement of S-bent pipes and small studs. This innovative jig is meticulously crafted to securely hold these components in position, utilizing an angle block mechanism that provides welders with the utmost convenience and accuracy during the welding process. As a result, it simplifies the welding procedure, ultimately leading to enhanced productivity and the creation of superior-quality welds, making it an indispensable asset for welders in various industries. Indeed, as the age-old adage suggests, sometimes the simplest designs are the most effective ones, and this jig epitomizes this principle by streamlining a critical aspect of welding operations.
PUMP CASING (Undisclosed)
I had the privilege of designing and fabricating a custom pump casing for a valued client, meticulously tailored to their precise specifications. This specialized casing has been created for an essential project, the details of which are bound by a strict Non-Disclosure Agreement (NDA). Due to these confidentiality constraints, I regret that I am unable to share specific details or publicly disclose most of the components of this vital contribution to the undisclosed project. Nevertheless, I am proud to have been entrusted with this project, ensuring that its performance and integrity are maintained at the highest standards.
Discharge Characteristics of Bucket Elevator under varying Parameters
Bucket elevators are widely used to lift material at various heights. Granular material is one of the common types of material handled by the bucket elevators. One of the major criteria for design of elevator is the discharge from the elevator. It has been observed that discharge from bucket elevators depends on factors like linear speed of bucket, shape of bucket, radius for the discharge side sprocket and more. The mathematical equation is developed by equating the forces acting on a particle at the tip of bucket and determining the parameters values at which the particle will fly off. It was observed that while using maize as material handled, bucket linear speed 2 m/sec and bucket wheel radius 0.12m whereas material is placed at 0.162 m then discharge of material begins at 42.84 ⁰. The results of presented model give the angle at which discharge starts, using measurable angle of bucket and position of grain with respect to center of sprocket; and angle where the friction force component acts using position of grain and selected angle to determine discharge. Hence, this paper incorporates the method to calculate the angle at which discharge will begin by using the fixed characteristics of the Elevator.
Calculative model to obtain the consumption of Aluminium and Myler tape in Pairing Proces
Conceptualized the Consumption of Aluminium and Mylar Tape in the Pairing process for the Cables, while the
input parameters being, diameter of the core and Cut Length.
Wooden and metal drums size and cost prediction system
Formulated the mathematical model that calculates the Dimensions and Cost of the Wooden Drums and Metal
Drums by using the Cut Length of the Cables and Outer diameter of the same.
