Development of an Automated Sealing System for Polythene Bag

Mr. Avik Das, Mr. Abu Sayeed, Md. Rafiquzzaman

Abstract


The blessings of technology have sky rocketed in recent era and everything that is witnessed in the surroundings are the contribution of technology. Therefore, being up to date with the technology is the demand of modern science. The more automated the processes are, the better up to date is the technology. This paper presents the design and construction of a low cost yet flexible and secure automation based polythene bag sealer. This paper will investigate automation function, sealing mechanism as well as integration of automated filler, robotic hand and conveyor over the system. The purpose of this system is to supply polythene bags through vacuum grippers and seal these bags automatically and hence it is called an automated sealer. The parts that have been used in this system are working according to plan and the strength of sealing has been determined by hanging dead weight with the polythene bag. If there is enough capital and investment made behind this whole process, then it will be possible to construct the desired machine and make it eligible to use in the industry


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References


Peng, D. and C. Peng. A design and implement for simple smart home system for consumers. in 2016 Chinese Control and Decision Conference (CCDC). 2016. IEEE.

Daundkar, M.M. and B.N. Savant. Low cost automation solution for paper bag production using commodity hardware. in 2016 IEEE International Conference on Recent Trends in Electronics, Information & Communication Technology (RTEICT). 2016. IEEE.

Gopura, R. and T.J.E. Jayawardane, Analysis, Modeling and Simulation of a Poly-Bag Manufacturing System. 2012. 4(05): p. 256.

Callies, R., S.J.M. Fronz, and C.i. Simulation, Recursive modeling and control of multi-link manipulators with vacuum grippers. 2008. 79(4): p. 906-916.

Tetsuya, T., et al., The effect of heat sealing temperature on the properties of OPP/CPP heat seal. I. Mechanical properties. 2005. 97(3): p. 753-760.

Jaiswal, A. VACUUM GRIPPER- AN IMPORTANT MATERIAL HANDLING TOOL. 2017; Available from: https://pdfs.semanticscholar.org/6b9a/807e44f478c0b7ed0a15cc1b222401601c06.pdf.

Bainbridge, L., Ironies of automation, in Analysis, Design and Evaluation of Man–Machine Systems. 1983, Elsevier. p. 129-135.

Parasuraman, R. and V.J.H.f. Riley, Humans and automation: Use, misuse, disuse, abuse. 1997. 39(2): p. 230-253.

Sheridan, T.B., Telerobotics, automation, and human supervisory control. 1992: MIT press.

Slinkard, K., V.L.J.A.j.o.e. Singleton, and viticulture, Total phenol analysis: automation and comparison with manual methods. 1977. 28(1): p. 49-55.


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