Development of rotating tool hanger withused oil storage and 12v electric suction pump/ Jayvee Bryan B. Totanes, Laurence Anthony G. Bechayda, Lee Marlo E. Peradilla, Ron Andrei H. Dela Peña, and Simeon III F. Felix.--

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Totanes, Jayvee Bryan B [author]

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Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2023.Description: x, 77pages: 29cmContent type:

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BTH TL 146 T68 2023

Dissertation note: College of Industrial Technology.-- Bachelor of engineering technology major in mechanical technology option in automotive engineering technology: Technological University of the Philippines, 2023. Summary: This study, development of rotating tool hanger with used oil storage and 12v electric suction pump, aims for faster productivity by draining the oil with an average time of 3 minute and 9 seconds per liter. The prototype sucks engine oil while the user can do other jobs same time so that the time consumed is less. The main target of this study is a small automotive workshop. The suction pump and the used oil storage of the prototype works on the following steps. First, the user must pull out the used-oil container underneath the tool hanger storage. Connect the suction pump to the used-oil container using the teflon tubes. Then, connect the suction pump to a power source. Insert the teflon tube inside the engine dipstick until it reaches the maximum depth. Switch the suction pump on until all the engine oil is transferred to the container. The prototype undergoes a series of testing procedures. However, the benefits of this study target small automotive workshops only. The project was evaluated by respondents (N=25), such as automotive professors, students, small independent workshop owners, and technicians. Aesthetics got the highest weighted mean of 4.59 (Excellent), followed by Safety with a mean score of 4.16 (Excellent). Durability got a rating of 4.49 (Excellent). Functionality got a weighted mean of 4.41 (Very Satisfactory), and Economy got weighted mean score of 4.07 (Very Satisfactory). Efficiency got 3.54 (Very Satisfactory). The prototype got a 4.27 grand mean, which is equivalent to a very satisfactory remark. This demonstrates that the strategy is advantageous to all students, professors, and automobile mechanics working in small shops.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH TL 146 T68 2023 (Browse shelf(Opens below))	c.1.	Not for loan		BTH0005694

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Bachelor's thesis

College of Industrial Technology.-- Bachelor of engineering technology major in mechanical technology option in automotive engineering technology: Technological University of the Philippines, 2023.

Includes bibliographic references and index.

This study, development of rotating tool hanger with used oil storage and 12v electric
suction pump, aims for faster productivity by draining the oil with an average time of 3
minute and 9 seconds per liter. The prototype sucks engine oil while the user can do other
jobs same time so that the time consumed is less. The main target of this study is a small
automotive workshop. The suction pump and the used oil storage of the prototype works
on the following steps. First, the user must pull out the used-oil container underneath the
tool hanger storage. Connect the suction pump to the used-oil container using the teflon
tubes. Then, connect the suction pump to a power source. Insert the teflon tube inside the
engine dipstick until it reaches the maximum depth. Switch the suction pump on until all
the engine oil is transferred to the container. The prototype undergoes a series of testing
procedures. However, the benefits of this study target small automotive workshops only.
The project was evaluated by respondents (N=25), such as automotive professors, students,
small independent workshop owners, and technicians. Aesthetics got the highest weighted
mean of 4.59 (Excellent), followed by Safety with a mean score of 4.16 (Excellent).
Durability got a rating of 4.49 (Excellent). Functionality got a weighted mean of 4.41 (Very
Satisfactory), and Economy got weighted mean score of 4.07 (Very Satisfactory).
Efficiency got 3.54 (Very Satisfactory). The prototype got a 4.27 grand mean, which is
equivalent to a very satisfactory remark. This demonstrates that the strategy is
advantageous to all students, professors, and automobile mechanics working in small
shops.

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