Safety sign
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Safety signs are a type of sign designed to warn of hazards, indicate mandatory actions or required use of Personal protective equipment, prohibit actions or objects, identify the location of firefighting or safety equipment, or marking of exit routes.
In addition to being encountered in industrial facilities; safety signs are also found in public places and communities, at electrical pylons and Electrical substations, cliffs, beaches, bodies of water, on motorized equipment, such as lawn mowers, and areas closed for construction or demolition.
History
In the United States
Early signs and ASA Z35.1
One of the earliest attempts to standardize safety signage in the United States was the 1914 Universal Safety Standards.<ref name="Universal Safety Standards - 1914">Hansen, Carl Marius (1914). Universal Safety Standards: A Reference Book of Rules, Drawings, Tables, Formulae, Data Suggestions for Use of Architects, Engineers, Superintendents, Foremen, Inspectors, Mechanics and Students (2nd ed.). New York, New York: Universal Safety Standards Publishing Company. pp. 38, 108–109 (Note: Page 109 is missing from this source's scan.). Retrieved 17 November 2018.</ref> The signs were fairly simple in nature, consisting of an illuminated board with "DANGER" in white letters on a red field.<ref name="Universal Safety Standards - 1914"/> An arrow was added to draw attention to the danger if it was less obvious. Signs indicating exits, first aid kits consisted of a green board, with white letters. The goal with signs was to inform briefly.<ref name="Universal Safety Standards - 1914" /> The next major standards to follow were ASA<ref group="lower-alpha">American Standards Association, a previous name for the American National Standards Institute.</ref> Z35.1 in 1941, which later revised in 1967 and 1968. The Occupational Safety and Health Administration devised their requirements from ASA Z35.1-1968 in the development of their rules, OSHA §1910.145 for the usage of safety signage<ref name="OSHA §1910.145 - Law">Occupational Health and Safety Administration. "§1910.145 Specifications for accident prevention signs and tags". Electronic Code of Federal Regulations. United States Federal Government. Retrieved 17 November 2018.</ref>
ANSI Z535
In the 1980s, American National Standards Institute formed a committee to update the Z53<ref group="lower-alpha">Standard for Safety Color Code for Marking Physical Hazards and Equipment.</ref> and Z35 standards. In 1991, ANSI Z535 was introduced, which was intended to modernize signage through increased use of symbols, the introduction of a new header, 'Warning' and requiring that wording not just state the hazard, but also the possible harm the hazard could inflict and how to avoid the hazard.<ref name="ANSI Z535.4-2011 - Full Standard">American National Standards Institute (November 15, 2011). "ANSI Z535.4-2011 - Product Safety Signs & Labels" (PDF). ANSI. Archived from the original (PDF) on 17 April 2018. Retrieved 22 November 2018.</ref> Until 2013, OSHA regulations<ref name="OSHA Adoption of ANSI Z535">Occupational Safety and Health Administration (February 22, 2011). "Standard Interpretations - ANSI standards regarding accident prevention signs and physical hazard marking". OSHA.gov. Retrieved 22 November 2018.</ref> technically required usage of signage prescribed in OSHA §1910.145, based on the standard ASA Z35.1-1968. Regulation changes and clarification of the law now allow usage of signs complying with either OSHA §1910.145 or ANSI Z535 designs.<ref name="OSHA or ANSI">safetysigns.com. "Do I need OSHA or ANSI safety signs?". Retrieved 16 November 2018.</ref>
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In Europe
Prior to widespread globalization and adoption of standards from the ISO, most countries developed their own standards for safety signage. Text only signs were common prior to introduction of European Council Directive 77/576/EEC on 25 July 1977, which required member states to have policies in place to ensure that "safety signs at all places of work conform to the principles laid down in Annex I", which required color coding and symbols. In 1992, the European Council Directive 92/58/EEC replaced EEC 77/576/EEC. The new directive included improved information on how to utilize safety signage effectively. Beyond safety signs, EEC Directive 92/58/EEC standardize markings for fire equipment, acoustic signals, verbal and hand signals for vehicle movements.<ref name="EEC - 1992 Safety Sign Directive">European Economic Council (24 June 1992). "Council Directive 92/58/EEC of 24 June 1992 on the minimum requirements for the provision of safety and/or health signs at work". EUR-Lex. Retrieved 17 November 2018.</ref> In 2013, the European Union adopted ISO 7010 to replace the symbols provided previously, adopting them as European Norm (EN) ISO 7010, standardizing symbols among the EU countries. Prior to this, while symbols were provided, symbols were permitted to vary in appearance "provided that they convey the same meaning and that no difference or adaptation obscures the meaning".<ref name="EEC - 1992 Safety Sign Directive"/>
In Australia
Australian safety signage started in 1952 as CZ4-1952: Safety signs for the occupational environment. It revised and redesignated as AS1319-1972 in 1972, with further revisions taking place in 1979, 1983 and 1994.<ref name="AS1319-1994">AS 1319-1994 - Safety signs for the occupational environment. Standards Australia. 1994 [1983].</ref> In August 2018, AS1319-1994 was reconfirmed as still being valid and not in need of major revisions.<ref name="AS1319-1994"/>
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In Japan
Japanese safety signage is notable for its clear visual differences from international norms, such as use of square 'no symbols', vertical formatting of sign text. Safety sign standards are regulated by Japanese Industrial Standards through standards JIS Z9101 (Workplace and public area safety signs) JIS Z 9103 (Safety sign colors) and JIS Z 9104 (Safety signs - General specifications). While design trends have been moving towards international norms of ISO and ANSI standards, differences are still present such as the use of symbols unique to the JIS standards, using colors differently from ISO standards<ref group="lower-alpha">Using red for "emergency button" and "emergency telephone"</ref> and using a combination of Japanese kanji and English. In addition to typical safety sign standards, Japan introduced JIS Z 9098 in 2016 specifically addressing emergency management needs: informing people of areas susceptible to natural disasters, evacuation routes and safe shelters from disasters. The standard's more unique aspect is the usage of maps and diagrams to provide more detailed information about the area's hazards, shelters and evacuation routes.<ref name="Aboc - JIS Z 9098">"JIS Z 9098で用いるJIS図記号". Aboc (in 日本語). 2016. Retrieved 3 March 2019.</ref>
In China
Chinese safety signage is regulated by Standardization Administration of China using GB standards 2893-2008 and 2894-2008,<ref name="GB 2893">Guobiao Standards (12 November 2008). "Safety colours" (PDF) (in 中文). Archived from the original (PDF) on 4 March 2019. Retrieved 4 March 2019.</ref><ref name="GB 2894">Guobiao Standards (11 November 2008). "Safety signs and guideline for the use" (PDF) (in 中文). Archived from the original (PDF) on 16 May 2018. Retrieved 4 March 2019.</ref> which all safety signs are legally required to comply with.<ref name="GB Mandatory Standards">ANSI. "PRC Standards System: standards Used in China". StandardsPortal.org. Retrieved 4 March 2019. GB: Mandatory National Standards
</ref> Designs are similar to ISO 3864 and uses older ISO 7010:2003 symbols, while adding several additional symbols covering a wider range of prohibitions and hazards.<ref name="GB 2894"/>
Sign design and layout
Modern signage design typically consists of a symbol, warning text and in some countries<ref group="lower-alpha">United States, Canada, Australia.</ref> a header consisting of a signal word.
Headers
North American and some Australian safety signage utilize distinctive headers to draw attention to the risk of harm from a hazard. Headers have guidelines for usage, where conditions must be met to dictate which header must be used for a sign.
| OSHA/ANSI Z35.1 | ANSI Z535 | Signal Word | Intended Use |
|---|---|---|---|
 |
 |
Danger |
Situation that will result in serious injury or death. |
 |
 |
Warning |
Situation could result in serious injury or death. |
 |
 |
Caution |
Situation could result moderate or minor injury. |
 |
 |
Notice |
Situations that at worst will only result in property damage and will not result in physical injuries. |
The 2007 revisions to ANSI Z353.4 allowed for the 'safety alert symbol' found on 'Danger', Warning' and 'Caution' headers to be replaced with the ISO 7010 "W001 - General warning" symbol to enable compliance with ISO 3864-1 for signs used in international situations or equipment being exported abroad. Additional headers designs exist, Z53.1-1968 prescribed a magenta and yellow 'Radiation' header for radiation hazards. Other headers have been created by sign manufacturers for various situations not covered Z53.1 standard, such as "Security Notice", "Biohazard", "Restricted Area".
Symbols
As a means of overcoming language and literacy barriers, symbols depicting the hazards, required action or equipment, prohibited actions or items and safety equipment were introduced to safety signage during the 1990s. Globalization and increased international trade helped push this development, as a means of reducing costs associated with needing signage multiple languages.<ref name="ANSI Z535.4-2011 - Full Standard"/> Increasingly, countries are adopting symbols used by ISO 7010 and UN Globally Harmonized System of Classification and Labelling of Chemicals, that harmonizes symbols internationally to reduce confusion, and bring themselves into compliance with international standards.
Portable signage
For temporary situations such as wet floors, portable signs are used. They are designed to be self supporting and relatively easy to move once the task is complete. The 1914 Universal Safety Standards<ref name="Universal Safety Standards - 1914"/> provided for a portable 'Danger' sign suitable for both hard floors and soft dirt. Portable signs can take a variety of forms, from a traffic cone with stick on letters, plastic a-frame signs, to safety signs mounted on poles with bases that enable movement.<ref>Tufts, John. "City installs $75K portable traffic signals to curb vehicle crashes at busy intersection". San Angelo. San Angelo Standard-Times. Retrieved 12 February 2020.</ref>
Wet floor signs are also intended to avoid legal liability from injury due failing to warn of an unsafe condition.<ref>Steven Di Pilla (2004-06-02). Slip and Fall Prevention: A Practical Handbook. CRC Press. ISBN 978-1-56670-659-9.</ref> They are usually yellow.<ref name="Eccles">Eccles, Kimberly A.; Hummer, Joseph E. "SAFETY EFFECTS OF FLUORESCENT YELLOW WARNING SIGNS AT HAZARDOUS SITES IN DAYLIGHT" (PDF) (TRB Paper 01–2236). Transportation Research Board: 3. Retrieved 11 February 2020. The Problem Yellow warning signs are an important and abundant type of traffic control device. Yellow warning signs inform the motorist about potentially hazardous conditions on, or adjacent to, a highway. Yellow warning signs may prompt a driver to become more alert, exercise more caution, or reduce speed. Yellow warning signs are commonly used prior to changes in alignment, changes in cross section, intersections, signals, or STOP signs. Because they are relatively inexpensive, many engineers believe that installing warning signs is generally one of the most cost-effective safety countermeasures available.
{{cite journal}}: Cite journal requires |journal= (help)</ref> The warning is sometimes enhanced with new technology to provide audible warnings.<ref>MS Wogalter, SL Young (1991), Behavioural compliance to voice and print warnings (PDF), Ergonomics</ref> Robotic cleaning equipment can use wet floor signs with sonar gadgetry to know when its job is finished.<ref name="Larson1998">Larson, Jan (1998). "RoboKent - a case study in man-machine interfaces". Industrial Robot. 25 (2): 95–100. doi:10.1108/01439919810204577. ISSN 0143-991X. Retrieved 2013-03-03.</ref>
Effectiveness of safety signs
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Since the late 1980s, more emphasis has been put on testing signage for clarity and to eliminate possible misunderstandings. Researchers have examined the impacts of using different signal words, inclusion of borders and color contrast with text and symbols against sign backgrounds.<ref name="Warnings and Risk Communication">Wogalter, Michael S.; DeJoy, David M.; Laughery, Kenneth R. (1999). Warnings and Risk Communication. Philadelphia, PA: Taylor & Francis. ISBN 978-0-7484-0266-3.</ref> In 1999, a group of designers were tasked with creating standardized warning labels for personal watercraft. The group devised several versions of the same warning label using different symbols, wording and emphasis of key phrases through use of underlining, bold fonts and capitalizing. The label designs were reviewed by the United States Coast Guard, United States Power Squadron, industry representatives and subjected to ease of comprehension and readability tests. Results of these reviews and tests lead to further revisions of words and redesigning of some symbols.<ref name="Handbook of Warnings">Wogalter, Michael S, ed. (2006). Handbook of Warnings. London: Lawrence Erlbaum Associates. pp. 723–737. ISBN 978-0-8058-4724-6.</ref> The resulting labels are still applied to personal watercraft nearly 20 years after their initial design.<ref name="PWC Owner Manual">Yamaha (June 2017). "Yamaha Waverunner Owner Manual" (E-book). p. 6. Retrieved 13 March 2019.</ref>
Placement of signs also affects the effectiveness of signs. A 1993 study tested compliance with a warning against loading the top drawer of a filing cabinet first. The warning was least effective when it was only placed on the shipping box, but most effective when placed as part of a removable cardboard sleeve that physically obstructed the top drawer, interfering with adding files to the drawer.<ref name="Warning Design (Edworthy)">Edworthy, Judy; Adams, Austin (1996). "2 - Warning Labels". Warning Design : A Research Prospective (1st ed.). Bristol, PA: Taylor & Francis. ISBN 978-0748400904.</ref>
Sign effectiveness can be reduced from a number of factors, including information overload, where the sheer amount of information is presented in a manner that a reader is unable process it adequately, such as being confronted by a sign consisting of dozens of words with no paragraph breaks, or excessive amounts of unnecessary information.<ref name="Texas gun signs" group="lower-alpha"></ref> This can be prevented through simplifying warnings down to their key points, with supplementary manuals or training covering the more nuanced and minor information. Overwarning is a related problem, where warnings are overlooked by people due to the sheer number of warnings, such as placing many safety signs together, redundant or obvious warnings.<ref name="Warnings and Risk Communication"/> Effectiveness can be reduced through conditions such as poor maintenance, placing a sign too high or low, or in a way that requires excessive effort to read.<ref group="lower-alpha">A top loading washing machine with a lid that opens to the side with a warning label on the lid's underside. This required a reader to bend awkwardly to read the label.</ref><ref name="Warnings and Risk Communication"/><ref name="EEC - 1992 Safety Sign Directive"/>
Technical standards
| Title | Area | Year of Adoption | Status |
|---|---|---|---|
| ISO 3864<ref name="ISO 3864-1:2011">International Organization for Standardization (April 2011). "ISO 3864-1:2011". Retrieved 4 April 2018.</ref><ref name="ISO 3864-2:2016">International Organization for Standardization (December 2016). "ISO 3864-2:2016". Retrieved 4 April 2018.</ref><ref name="ISO 3864-4:2011">International Organization for Standardization (March 2011). "ISO 3864-4:2011". Retrieved 4 April 2018.</ref> | International | 2011–2016 | current |
| ISO 7010<ref name="ISO 7010">International Organization for Standardization (June 2011). "ISO 7010:2011". Retrieved 4 April 2018.</ref> | International | 2011 | current |
| ISO 7001<ref name="ISO 7001">International Organization for Standardization (November 2007). "ISO 7001:2007". Retrieved 4 April 2018.</ref> | International | 2007 | current |
| ISO 20712-1<ref name="ISO 20712-1 merge with ISO 7010">International Organization for Standardization (2017). "ISO/PRF 7010 Graphical symbols -- Safety colours and safety signs -- Registered safety signs". Retrieved 22 November 2018.</ref><ref name="ISO 20712-1">International Organization for Standardization (August 2007). "ISO 20712-1:2008". Retrieved 4 April 2018.</ref><ref group="lower-alpha">Water Safety symbols.</ref> | International | 2008 | superseded in 2018 by ISO 7010 |
| Symbols, dimensions and layout for safety signs"]. ISO. Retrieved March 1, 2021.</ref> | International | 1967 | superseded in 1984 by ISO 3864:1984 |
| Globally Harmonized System of Classification and Labelling of Chemicals (GHS)<ref name="UNECE - GHS">United Nations Economic Commission for Europe. "About the GHS". unece.org. Retrieved 16 November 2018.</ref> | International | 2005–2017 | current |
| (IMO) Resolution A.1116(30)<ref>"Resolution A.1116(30) Adopted on 5 December 2017 ESCAPE ROUTE SIGNS AND EQUIPMENT LOCATION MARKINGS" (PDF). Retrieved 2023-11-06.</ref> | International | 2017 | current |
| (IMO) Resolution A.760(18)<ref>"RESOLUTION A.760(18) adopted on 4 November 1993 SYMBOLS RELATED TO LIFE-SAVING APPLIANCES AND ARRANGEMENTS" (PDF). Retrieved 2023-11-06.</ref> | International | 1993 | superseded in 2017 by Resolution A.1116(30) |
| (IMO) Resolution A.603(15)<ref>"RESOLUTION A.603(15) adopted on 19 November 1987 SYMBOLS RELATED TO LIFE-SAVING APPLIANCES AND ARRANGEMENTS" (PDF). Retrieved 2023-11-06.</ref> | International | 1987 | superseded in 1993 by Resolution A.760(18) |
| Regulation (EC) No 1272/2008<ref name="EC Chemicals Legislation">"Classification, Labelling and Packaging (CLP) Regulations". European Commission. 2016-12-20. Retrieved 8 March 2019.</ref> | European Union | 2009 | current |
| Directive 92/58/EEC<ref name="EEC - 1992 Safety Sign Directive" /><ref name="Council Directive 92/58/EEC">EUR-Lex (24 June 1992). "Minimum requirements for the provision of safety and/or health signs at work". EUR-Lex - Access to European Union Law. Retrieved 22 November 2018.</ref> | European Union | 1992 | current |
| Directive 67/548/EEC | European Union | 1967 | superseded in 2016 by CLP<ref name="EC - CLP to GHS">European Commission (16 November 2018). "Classification and Labelling (CLP/GHS)". ec.europa.eu. Retrieved 16 November 2018.</ref> |
| Directive 77/576/EEC<ref name="EC Directive 77/576/EEC">European Economic Council (25 July 1977). "Council Directive 77/576/EEC of 25 July 1977 on the approximation of the laws, regulations and administrative provisions of the Member States relating to the provision of safety signs at places of work". EUR-Lex. Retrieved 21 December 2018.</ref> | European Union | 1977 | superseded in 1992 by Directive 92/58/EEC |
| ANSI Z535-2011<ref name="ANSI Z535.4-2011 - Full Standard2">American National Standards Institute (November 15, 2011). "ANSI Z535.4-2011 - Product Safety Signs & Labels" (PDF). ANSI. Archived from the original (PDF) on 17 April 2018. Retrieved 22 November 2018.</ref> | United States | 2011 | current |
| ANSI Z35.1 | United States | superseded in 1991 by ANSI Z535-1991<ref name="OSHA or ANSI" /> | |
| BS 5499<ref name="Health & Safety (Safety Signs & Signals) - Edition 3">Health and Safety Executive. "Safety signs and signals - 3rd Edition" (PDF). United Kingdom Government. Retrieved 16 November 2018.</ref> | Great Britain | superseded in 2015 by BS EN ISO 7010 | |
| DIN 4844-2:2001 | Germany | 2001 | superseded in 2013 by DIN EN ISO 7010<ref name="DIN 4844-2">"DIN EN ISO 7010:2012-10". www.din.de. Archived from the original on 2016-01-25.</ref><ref name="DIN EN ISO 7010 Adoption">German Institute for Standardization (October 2012). "DIN EN ISO 7010 Graphical symbols - Safety colours and safety signs - Registered safety signs (ISO 7010:2011); German version EN ISO 7010:2012". din.de. Retrieved 16 November 2018.</ref> |
| AS1319-1994<ref name="AS1319-19942">AS 1319-1994 - Safety signs for the occupational environment. Standards Australia. 1994 [1983].</ref><ref group="lower-alpha">Introduced in 1952 as Australian Standard CZ4-1952, revised & redesignated AS 1319 in 1972.</ref> | Australia | 1994 | current |
| JIS Z 9101 "Workplace and public area safety signs"<ref name="JIS Z 9101">JIS Z 9101:2005 Safety Colours And Safety Signs - Design Principles For Safety Signs In Workplaces And Public Areas (in 日本語). Japanese Industrial Standards. 2005 [1986].</ref> | Japan | 2005 | current |
| JIS Z 9104 "General safety signs"<ref name="JIS Z 9104">JIS Z 9104:2005 Safety Signs - General Specification (in 日本語). Japanese Industrial Standards. 2005 [1987].</ref> | Japan | 2005 | current |
| JIS Z 9098 "Emergency Management Signs"<ref name="JIS Z 9098 - Examples">Ministry of Economy, Trade and Industry; Japanese Industrial Standards Committee (JISC). "JIS Z 9098 災害種別避難誘導標識システム 国際提案について" (PDF). Bureau of Olympic and Paralympic Games Tokyo 2020 Preparation. Archived from the original (PDF) on 3 March 2019. Retrieved 3 March 2019.</ref> | Japan | 2016 | current |
| GB 2893-2008 "Safety Colours"<ref name="GB 28932">Guobiao Standards (12 November 2008). "Safety colours" (PDF) (in 中文). Archived from the original (PDF) on 4 March 2019. Retrieved 4 March 2019.</ref> | China | 2008 | current |
| GB 2894-2008 "Safety Signs and Guidelines for Use"<ref name="GB 28942">Guobiao Standards (11 November 2008). "Safety signs and guideline for the use" (PDF) (in 中文). Archived from the original (PDF) on 16 May 2018. Retrieved 4 March 2019.</ref> | China | 2008 | current |
See also
Notes
References
External links
Media related to Lua error in Module:Commons_link at line 63: attempt to index field 'wikibase' (a nil value). at Wikimedia Commons- Media related to Safety signs and Warning signs at Wikimedia Commons
