.

Thursday, December 5, 2019

Design of An Automatic Car Jar Samples †MyAssignmenthelp.com

Question: Discuss about the Design of An Automatic Car Jar. Answer: Introduction One of the most difficult experiences which give many people headache is having their car with flat tires while moving. There is usually a lot of on peoples their heads when they imagine getting out and viewing a flat tire (Johnson 2007). Although there is all equipment needed for the change of tire in the car, the stress of bending and pumping a manual or hydraulic jack become a bigger stress. Having an automatically operated car jack is a key requirement which will ensure that when the problem pounces, the major task is to place the jack under the car and then operate it while standing alongside. Concept Description The main concept in this project will be the design of an automatic car jack which can be operated through Bluetooth. This means that an application on the phone will be used to operate the jack automatically in lifting and lowering the car. The main idea will ensure the stress of going under the car and lifting it until the tyre leaves the ground is avoided (Kauffman 2010). The jack will have a Bluetooth detection device which will ensure it can flow communication with the phones Bluetooth. Bluetooth is an application which is found on all phones and this will ensure that users will only have an additional device showing the operation of the jack. The idea will ensure a new form of car jack, which is automatically operated, is designed. This idea will be highly operation in hydraulic jacks and not the manual jack systems (Erjavec 2013). The idea will operate on change the pressures of the hydraulic jack fluids and ensure that they lift up the cars. The major value of this project will rely on saving time and energy. The hydraulic jack operates whereby the oil is sacked into the plunger cylinder. The stress of pumping to lift up the oil in the hydraulic jack will be omitted (Lewin 2009). This will mean that the time taken to replace the flat tyres is less than what is being spent now. According to journal by Li, Kim Jeswiet the hydraulic jack is able to use the principle of Pascals law to operate. It has two mounted cylinders which have the operating fluid. The design of the automatic hydraulic jack will use the same principle of Pascals law. The already available principle and design is the operated hydraulic jack. The patents have hydraulic jack which has the same operating valves which will enhance the operation of the hydraulic fluid in the jacks (Rancourt Mitri 2011). The hydraulic has pressure ram cylinder which helps in uplift of the pressure and lowering pressure to lower the loads. Trye patent has to include critical formulate of the connectivity between the two parts of the jack and ensure proper lifting of the loads. Concept analysis The project will ensure high time saving and cost factor in the long run is achieved. In many cases, during flat tyres, affected people call for help to solve the project. This is most attributed to the stress of using the car jack. This new design will have a competitive advantage since it will require the jack to be placed on the best position and then operated while one is standing outside. In the long run, the project will achieve cost effectiveness (Rao Savsani 2012). Moreover, the project will ensure that the device is operational and enhance the effectiveness in minimizing challenges achieved with the current car jack design. The design of this project will rely on the Bluetooth connectivity. The major assumption will be that the Bluetooth connectivity will be strong enough and not fail during the operation of the jack. In addition, the design will assume that when the connectivity fails, the jack will not reverse the process and only stops the process. This will ensure that the jack continues to hold the load imposed. The major weakness of this project is the relying on the Bluetooth connectivity. In order to address this problem, the project will have a backup connectivity of the GPRS (Erjavec 2011a). This will ensure in case, GPRS will be connected when the Bluetooth connectivity fails. Conception design will ensure it addresses the issue of connectivity. Skills Team required Two major expertise teams will be required in this project. This will include the design team and also the programming team (Erjavec 2011b). This project will require expertise on design. The design expertise will ensure that the design on the jack is perfect to ensure proper lifting of the load. Design team will be able to ensure that the jack fits the perfect design parameters of the fluid cylinder. The design team will be able to design the best parameters under which the fluid can be compressed to achieve the required pressure to lift the loads. In addition, programming skills will be vital in this project. The design team will be important to come up with the best application programming which will ensure that the application in the carjack can connect with the gadgets application. The programming skills will ensure that the Bluetooth and GPRS strength are enough to lift the loads imposed. Proper experience in this will be required to ensure that the connectivity is able to prov ide the required strength to lift the loading and not fail (Erjavec 2010). In addition, the programming team has to ensure that automatic change on the network is carried out without change on the strength and process. This process will ensure that the car jack is not destroyed during the change process by the imposed load. These two teams will ensure that the design and operations of the automatic jack is able to enhance the efficiency of operation while saving time. Conclusion The design of the automatic hydraulic jack will ensure that time is highly saved. In addition, this project will help come up with proper design to ensure that load increasing load carrying capacity. In addition, the hydraulic design will factor the changes in the fluid pressure and ensure it enhances the operation of the hydraulic jack. This project will rely on Bluetooth and GPRS connectivity. Programming and design will be important experiences which will be applied on this project. References Erjavec, J. (2010). Automotive technology: A systems approach. Australia: Delmar Cengage Learning. Erjavec, J. (2011a). Classroom manual for automatic transmissions and transaxles. Clifton Park, N.Y: Delmar Cengage Learning. Erjavec, J. (2011b). Shop manual for automatic transmissions and transaxles. Clifton Park, N.Y: Delmar Cengage Learning. Erjavec, J. (2013). Hybrid, electric fuel-cell vehicles. Clifton Park, NJ: Delmar Cengage Learning. Johnson, J. L. (2007). Design of electrohydraulic systems for industrial motion control. East Troy, Wis: IDAS Engineering, Inc. Kauffman, J. (2010). Hydraulic system design. Cleveland, Ohio: Penton Pub. Co. Lewin, J. (2009). Hydraulic gates and valves in free surface flow and submerged outlets. London: Thomas Telford Ltd. Li, C., Kim, I. Y., Jeswiet, J. (February 01, 2015). Conceptual and detailed design of an automotive jack cradle by using topology, shape, and size optimization. Structural and Multidisciplinary Optimization, 51, 2, 547-564. Rancourt, A. J., Mitri, H. (January 01, 2011). Application of rock cover alteration ratio concept in preliminary design of unlined pressure jacks. Canadian automotive Journal, 48, 11, 1674-1682. Rao, R. V., Savsani, V. J. (2012). Mechanical Design Optimization Using Advanced Optimization Techniques. London: Springer London.

No comments:

Post a Comment