Rabich H.V., Chumak L.A., Mescheryakova I.V. ANALYSIS OF CHANGED WORKING CONDITIONS IN THE WORKPLACES FOR MODERNIZATION OF PRODUCTION
- Details
- Parent Category: Geo-Technical Mechanics, 2016
- Category: Geo-Technical Mechanics, 2016, Issue 128
ANALYSIS OF CHANGED WORKING CONDITIONS IN THE WORKPLACES FOR MODERNIZATION OF PRODUCTION
Rabich H.V., Chumak L.A., Mescheryakova I.V.
Rabich H.V., Ph. D., Assos.prof.,
Chumak L.A., Ph. D., Assos.prof.,
Mescheryakova I.V., Doctoral Student
(SHEI «PSACEA»)
Abstract. Analysis of working conditions during modernization of production showed that in the first place is intensity of job, which is characterized by the job content, sensory loads, perception of signals (information) and their evaluation. To a full degree it behaves to mine production. Mutual influence of the environment light indicators of and labor intensity in the regulations is not considered in terms of load on visual analyzer. Evaluation criteria for working places light indexes for the environment with artificial lighting in the first 8 hours refer to harmful working conditions that require elaborations of measures aimed at bringing them to acceptable level. During the analysis of light environment and establishment of a class of working conditions mental load and age range of workers must be taken into account. While assessing quality of the workplace lighting, it is necessary to consider some fotobiological effect of light and its interaction with labor intensity. The LED lighting differs from any other types of traditional light sources and allows to create dynamic lighting with new possibilities and to influence biological processes in human body, so the impact of the LED lighting on the staff’s visual performance creates a basis for further investigation of interdependence between work intensity and quality of artificial light environment.
Keywords. working conditions, work intensity, light environment, LED lighting.
___________________________________
REFERENCES
1. Ministry of Health of Ukraine (2014), DSNtaP "Hygienic classification of work in terms of hazard and danger environment factors, severity and intensity of the work process", Available at: https: //www.zakon.rada. gov.ua/laws/show/z0472-14.
2. Minbuild of Ukraine (2006), «DBN V.2.5-28-2006. Natural and artificial lighting.», Available at: https://www.sunpower.ua/cp37498-dbn-v25-28-2006-prirodne--shtuchne-osvtlennya.html.
3. Regional Development of Ukraine (2013), «DBN V.2.5-67: 2013 Heating, ventilation and air conditioning», Available at:: https://www.teplydim.com.ua/static/storage/filesfiles/DBN_V_2_5-67_2013.pdf.
4. Orekyova, O. and Pavlenko, O. (2016), «We measure tension of labour», Labour protection, no, 9, pp. 48-51.
5. Kalnysh, V. (2016), «Stress in the workplace and the labor intensity problem», Labour protection, no. 6, pp. 39-41.
6. Tretyakov, A.V., Zatsarniy, V.V. and Bezsonniy, V.K. (2010), Okhorona pratsi: navchalny iosibnyk [Labour protection: train aid], Knowledge, Kiev, UA
7. Eremin, A.A., Radchenko, Yu.M., Bila, O.V. [and others] (2015), «Improving working conditions in the industry through sustainable lighting», Metallurgy, - Vol. 1 (33) - pp. 100-103.
8. Bizhak, G.and Koba, M.B (2012), «Spectrums of radiation of light-emitting diodes and spectrum of action for suppression of secretion of melatonin», Lightning technology, no. 3, pp. 11-16.
9. Van de Kraatz J, van Norren D. (2007), «Optical density of the aging human ocular media in the visible and UV», J. Opt.Soc. Am. A., Vol. 24, no.7, pp.1842-1857.
10. Shirts K. (2011), «Lighting for the elderly: physiological basis and their consequences», Lightning technology, no. 2, pp 29-35.
11. CIE: Guidelines for Accessibility – Visibility and lighting Guidelines for Older Persons and Persons with Disabilites, Draft, no.4, pp. 25-38.
_______________________________
About the authors
Rabich Olena Viktorivna, Candidate of Technical Sciences (Ph.D), Associate Professor, Life Safety Department of the State Higher Education Inststution «Pridneprovsk State Academy of Civil Engineering and Architecture» (SHEI PSACEA), Dnіpropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Chumak Larisa Oleksandrivna, Candidate of Technical Sciences (Ph.D), Associate Professor, Life Safety Department of the State Higher Education Institution «Pridneprovsk State Academy of Civil Engineering and Architecture» ( SHEI PSACEA), Dnіpropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Mescheryakova Iryna Viktorivna, Doctoral Student, Life Safety Department of the State Higher Education Institution «Pridneprovsk State Academy of Civil Engineering and Architecture» (SHEI PSACEA), Dnіpropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .