Showing 5 results for Workstation
Pezhvak Ghasemzade, Shahnaz Tabatabaei, Amir Kavousi, Mahnaz Sareme,
Volume 5, Issue 3 (11-2017)
Abstract
Background: Attention to the workstations of the employees and their quality of work life has become increasingly important due to the increased competition in the organizations. The present study aimed to investigate the relationship between the ergonomic situation of the workstations and musculoskeletal disorders with the quality of work life and demographic variables in the administrative staff of the Tehran Municipality.
Methods: The present study was a descriptive and analytical one. The statistical population included a total of 600 persons, working in one of the regions in the Tehran Municipality. Of the 600 staff, a total of 255 were selected as the available sample group. The instruments consisted of the questionnaires, including the individual and occupational information, the Nordic questionnaire, the Walton Quality of work life, and the checklist of the ergonomic indices of the working environment for the administrative staff. In order to analyze the data, Student’s t-test and multiple regression analysis were used.
Results: In this study, the majority of the samples were females (56.9%) with a mean age of 33 years. A significant positive relationship was observed between all the ergonomic indices and the quality of work life. Significant correlations among the parameters such as age, education, sleeping at night, psychological conditions, musculoskeletal disorders of the neck, shoulder, and foot were observed simultaneously with the quality of work life. The quality of work life of an employee could be predicted through the musculoskeletal disorders and demographic variables but could not be predicted by the ergonomic indicators.
Conclusion: In this study, a relationship existed between the ergonomic condition of the workstations and musculoskeletal disorders with the quality of work life and demographic variables. Therefore, the physical condition and the quality of the work life of the employees would be positively affected by the improvement of the ergonomic condition of the workstations.
Siavash Etemadi Nejad, Seyyed Esmail Hosseininejad, Jamshid Yazdani Charati, Fariba Ghaempanah, Mahmoud Yousefi Chemazkati, Mojtaba Ahmadi, Ali Amani,
Volume 7, Issue 4 (2-2020)
Abstract
Background and Objectives: Sewing is one of the occupations where the prevalence of musculoskeletal disorders is high. Sewing conditions at the workstation have made tailors face musculoskeletal injuries in various areas of their body, particularly pain in the neck, shoulder, and upper back and even waist. The purpose of this study was to evaluate the effect of a workstation designed for tailoring considering the results of previous studies on the neck and shoulder muscles of users by electromyography.
Methods: In this interventional analytical study, the activity levels of four superficial neck and shoulder muscles (meridian, anterior deltoid, middle deltoid, posterior deltoid) were Electromyographed on 33 participants (male and female) at two new and custom designed workstations.
Results: There was a significant difference in the amount of muscle activity in the new and existing workstations (P<0.05). But there was no significant difference between the different modes of the new workstation.
Conclusion: All four muscles were less active at the new workstation than the conventional workstation, meaning that the designed workstation was able to reduce neck and shoulder muscle activity during work.
Mohammad Sadegh Sohrabi, Mehrdad Anbarian,
Volume 7, Issue 4 (2-2020)
Abstract
Background and Objectives: Using anthropometric characteristics in the ergonomic design of workstations can be useful in the prevention and reduction of musculoskeletal discomfort and in office-work environments. The purpose of this study was to determine the anthropometric dimensions of Hormozgan province gas department staff to design desks and chairs for computer work based workstations.
Methods: This is a descriptive-analytical study for measuring 36 anthropometric variables of 121 Hormozgan province gas company staff selected by cluster random method. After collecting anthropometric data considering ergonomic design criteria, dimensions of desk and office chairs are designed.
Results: Participants were 80.2% male and 19.8% female with a mean age of 35.11 and a standard deviation of 6.6 between 25 and 59 years. The mean and standard deviation of height measured was 170.7 and 8.06 cm, respectively. Anthropometric results are shown separately by gender and percentile in the tables. Dimensions of chair and office desk are designed based on obtained data.
Conclusion: The presented anthropometric desks can be used in future studies and designs. Also, the dimensional characteristics of the furniture provided can be a practical guide for designing and manufacturing office workstations.
Fakhradin Ghasemi, Maedeh Hasini, Mojtaba Ahmadi, Mostafa Rahmiani-Iranshahi,
Volume 8, Issue 4 (1-2021)
Abstract
Background and Objectives: Designing workstations in accordance with anthropometric characteristics of employees can prevent awkward working postures and reduce the risk of such disorders. The present study aimed at investigating the anthropometric compatibility of workstations in a sewing company and its relationship with working postures.
Methods: This cross-sectional study was conducted in a sewing company located in Hamadan province, Iran. Working postures were assessed in standing and sitting workstations using REBA and NERPA techniques, respectively. Anthropometric dimensions were measured in accordance with ISO 7250 and anthropometric compatibility with workstation was investigated. Mann-Whitney test was used for assessing the relationship between anthropometric compatibility and working posture.
Results: A total of 205 employees with a mean age 31.29 years participated in this study. Working postures were mostly in an unacceptable condition and the need for ergonomic intervention was evident. In sitting workstation, there was no significant relationship between working postures and anthropometric compatibility in terms of seat depth, seat width, and backrest height. In contrast, anthropometric compatibility with seat height and desk height were significantly associated with working posture (P<0.05). In standing workstations, a significant relationship was observed between anthropometric compatibility and desk height (P<0.05).
Conclusion: Anthropometric incompatibility with workstation generally deteriorated the working postures. However, anthropometric compatibility with seat height and desk height were the ones with a significant relationship with working posture. Therefore, for redesigning workstations the seat height and desk height should be considered first.
Arezoo Sammak Amani, Mohammad Amin Mououdi, Morteza Mahdavi, Fariba Ghaempanah,
Volume 9, Issue 3 (12-2021)
Abstract
Background and Objectives: For many employees, students and “Behind the desk jobs”, most of the daily work is done while sitting on a chair and behind a desk. This happens while many studies are associating long-term sedentary posture with musculoskeletal and cardiovascular diseases, etc. The aim of the present research is to design a tool that helps to change the working posture of people who work at sedentary workstations from sitting to stand-sit posture.
Methods: The measurements needed to design a desk converter were extracted from the existing anthropometric data of the Iranian community between the ages of 6-19 and 20-60 for both sexes, using 4 anthropometric parameters of elbow (to floor) height sitting, eye height sitting, elbow height standing and eye height standing. These values were used to obtain the difference between the required work surface of the hand while sitting and standing (keyboard position) and the difference of the required work surface of the eye while sitting and standing (display position). Due to the adjustability of this tool, 5th percentile of women and 95th percentile of men were used to achieve the required range of changes.
Results: The desk converter constitutes two parts, 1. Top surface (meant for monitor) and 2. the keyboard tray. The difference in the height of these two surfaces was calculated 12cm. The maximum height of the desk converter (adjustable range) for both age groups was 68 cm due to changes in sitting and standing elbow height. The width and depth of the desk are set at 90 by 50 cm, and the keyboard and mouse surface, with a width equal to the desk’s and a depth of 20 cm, creates sufficient and comfortable space for users.
Conclusion: It is envisioned that by using this tool and changing the posture of individuals from an entirely sitting posture to standing and sitting alternation, a contribution to the reduction of musculoskeletal, cardiovascular, diabetes and cancer problems can be made.
