Key Points of EN 13241 in Residential Door Installations

Key Points of EN 13241 in Residential Door Installations

When it comes to ensuring safety, security, and functionality in residential settings, the installation of doors is a critical aspect that cannot be overlooked. The European Standard EN 13241 sets forth comprehensive guidelines for the design, construction, and installation of industrial, commercial, garage doors, and gates, but elements of this standard are also highly relevant for residential door installations. Here are some key points from EN 13241 that homeowners and installers should consider to ensure compliance and optimal performance.


First and foremost, safety is paramount. EN 13241 emphasizes the importance of safety mechanisms in door installations. For residential doors, this means incorporating features like anti-finger trapping devices on swinging doors or automatic reversing mechanisms on sliding or automated doors to prevent injury. These safety features are crucial not only during the operation of the door but also during its installation phase where proper handling and secure mounting can prevent accidents.


Another critical aspect covered by EN 13241 is durability. The standard outlines specifications for materials that must withstand environmental conditions typical to European climates. For homes, this translates into choosing door materials that offer resistance against moisture, temperature fluctuations, and UV radiation. This ensures that the door not only looks good over time but also maintains its structural integrity, reducing the need for frequent replacements or repairs.


Performance criteria under EN 13241 include aspects like thermal insulation which is increasingly important in residential settings due to energy efficiency concerns. Doors must comply with certain U-values (a measure of heat loss) which directly impacts heating costs and indoor comfort. A well-insulated door helps in maintaining a stable internal temperature, contributing to lower energy consumption which is both economically beneficial and environmentally friendly.


Installation precision is another area where EN 13241 provides guidance through its requirement for proper alignment and functionality assurance. Misaligned doors can lead to operational issues like difficulty in closing or opening smoothly or even security vulnerabilities where locks might not engage properly. The standard encourages precise measurements during installation to ensure that doors fit perfectly within their frames, enhancing both functionality and security.


Furthermore, EN 13241 addresses accessibility, ensuring that doors do not hinder ease of access for all residents including those with disabilities. Features like lever handles instead of knobs or automated systems can significantly improve accessibility in homes. This aligns with broader European directives on building inclusivity.


Maintenance requirements are subtly woven into the fabric of EN 13241 by specifying components that facilitate easy upkeep. For residential doors, this might mean selecting finishes that require minimal maintenance or hardware designed for longevity with simple adjustments possible by homeowners themselves.


Lastly, while EN 13241 does not detail aesthetics directly, the standard indirectly supports design flexibility by allowing various configurations as long as they meet safety and performance standards. This gives homeowners the freedom to choose designs that complement their architectural style while still adhering to rigorous quality standards.


In conclusion, adopting the principles outlined in EN 13241 for residential door installations not only ensures compliance with European regulations but also enhances the living experience through improved safety, durability, energy efficiency, accessibility, and overall functionality. Whether youre renovating an old home or building a new one, considering these key points from EN 13241 can lead to better decisions regarding your homes entry points. By focusing on these aspects during installation or when choosing new doors, homeowners can enjoy peace of mind knowing their investment will stand the test of time while contributing positively to their daily lives.

Understanding ANSI DASMA Standards for Safe Operation

A coil spring is a mechanical tool that usually is utilized to save energy and ultimately launch it, to soak up shock, or to maintain a pressure in between getting in touch with surfaces. It is constructed from a flexible material created right into the form of a helix that goes back to its all-natural size when unloaded. Under stress or compression, the material (cable) of a coil spring undertakes torsion. The spring features therefore rely on the shear modulus. A coil spring might likewise be used as a torsion springtime: in this instance the springtime as a whole undergoes torsion about its helical axis. The product of the spring is consequently subjected to a bending minute, either decreasing or enhancing the helical span. In this setting, it is the Youthful's modulus of the product that figures out the spring qualities.

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A remote, likewise recognized informally as a remote or clicker, is an electronic device used to operate an additional gadget from a distance, typically wirelessly. In customer electronics, a push-button control can be used to run gadgets such as a television, DVD player or various other electronic home media home appliance. A push-button control can allow operation of devices that run out hassle-free grab straight procedure of controls. They operate best when used from a short range. This is largely a convenience feature for the user. In some cases, remotes allow an individual to run a gadget that they or else would certainly not be able to get to, as when a garage door opener is activated from outdoors. Early television push-button controls (1956–-- 1977) made use of ultrasonic tones. Present-day remote controls are frequently customer infrared gadgets which send digitally coded pulses of infrared radiation. They control features such as power, volume, channels, playback, track adjustment, energy, fan speed, and different other features. Remotes for these devices are generally small cordless portable items with an array of switches. They are made use of to adjust numerous settings such as television channel, track number, and quantity. The remote code, and therefore the required remote control device, is usually certain to a product. However, there are universal remotes, which imitate the push-button control made for most significant brand name devices. Push-button controls in the 2000s consist of Bluetooth or Wi-Fi connectivity, activity sensor-enabled abilities and voice control. Remote controls for 2010s forward Smart TVs may feature a standalone key-board on the back side to facilitate inputting, and be usable as a directing gadget.

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"Repair" and "repairman" redirect here. For home repair, see Home repair.
For the Wikipedia administrative page, see Wikipedia:Maintenance.
For other topics about maintenance, see Maintenance (disambiguation).
A tractor being mechanically repaired in Werneuchen, 1966
Field repair of aircraft engine (1915–1916)

The technical meaning of maintenance involves functional checks, servicing, repairing or replacing of necessary devices, equipment, machinery, building infrastructure and supporting utilities in industrial, business, and residential installations.[1][2] Terms such as "predictive" or "planned" maintenance describe various cost-effective practices aimed at keeping equipment operational; these activities occur either before[3] or after a potential failure.

Definitions

[edit]

Maintenance functions can be defined as maintenance, repair and overhaul (MRO), and MRO is also used for maintenance, repair and operations.[4] Over time, the terminology of maintenance and MRO has begun to become standardized. The United States Department of Defense uses the following definitions:[5]

  • Any activity—such as tests, measurements, replacements, adjustments, and repairs—intended to retain or restore a functional unit in or to a specified state in which the unit can perform its required functions.[5]
  • All action taken to retain material in a serviceable condition or to restore it to serviceability. It includes inspections, testing, servicing, classification as to serviceability, repair, rebuilding, and reclamation.[5]
  • All supply and repair action taken to keep a force in condition to carry out its mission.[5]
  • The routine recurring work required to keep a facility (plant, building, structure, ground facility, utility system, or other real property) in such condition that it may be continuously used, at its original or designed capacity and efficiency for its intended purpose.[5]

Maintenance is strictly connected to the utilization stage of the product or technical system, in which the concept of maintainability must be included. In this scenario, maintainability is considered as the ability of an item, under stated conditions of use, to be retained in or restored to a state in which it can perform its required functions, using prescribed procedures and resources.[6]

In some domains like aircraft maintenance, terms maintenance, repair and overhaul[7] also include inspection, rebuilding, alteration and the supply of spare parts, accessories, raw materials, adhesives, sealants, coatings and consumables for aircraft maintenance at the utilization stage. In international civil aviation maintenance means:

  • The performance of tasks required to ensure the continuing airworthiness of an aircraft, including any one or combination of overhaul, inspection, replacement, defect rectification, and the embodiment of a modification or a repair.[8]

This definition covers all activities for which aviation regulations require issuance of a maintenance release document (aircraft certificate of return to service – CRS).

Road repair

Types

[edit]

The marine and air transportation,[9] offshore structures,[10] industrial plant and facility management industries depend on maintenance, repair and overhaul (MRO) including scheduled or preventive paint maintenance programmes to maintain and restore coatings applied to steel in environments subject to attack from erosion, corrosion and environmental pollution.[10]

The basic types of maintenance falling under MRO include:

  • Preventive maintenance, where equipment is checked and serviced in a planned manner (in a scheduled points in time or continuously)
  • Corrective maintenance, where equipment is repaired or replaced after wear, malfunction or break down
  • Reinforcement[11]

Architectural conservation employs MRO to preserve, rehabilitate, restore, or reconstruct historical structures with stone, brick, glass, metal, and wood which match the original constituent materials where possible, or with suitable polymer technologies when not.[12]

Preventive maintenance

[edit]
C-130J Hercules preventive cleaning at Keesler Air Force Base, Mississippi after a period of operation over the Gulf of Mexico (salt and moisture which lead to active corrosion require regular cleaning)

Preventive maintenance (PM) is "a routine for periodically inspecting" with the goal of "noticing small problems and fixing them before major ones develop."[13] Ideally, "nothing breaks down."[14]

The main goal behind PM is for the equipment to make it from one planned service to the next planned service without any failures caused by fatigue, extreme fluctuation in temperature(such as heat waves[15]) during seasonal changes, neglect, or normal wear (preventable items), which Planned Maintenance and Condition Based Maintenance help to achieve by replacing worn components before they actually fail. Maintenance activities include partial or complete overhauls at specified periods, oil changes, lubrication, minor adjustments, and so on. In addition, workers can record equipment deterioration so they know to replace or repair worn parts before they cause system failure.

The New York Times gave an example of "machinery that is not lubricated on schedule" that functions "until a bearing burns out." Preventive maintenance contracts are generally a fixed cost, whereas improper maintenance introduces a variable cost: replacement of major equipment.[13]

Main objective of PM are:

  1. Enhance capital equipment productive life.
  2. Reduce critical equipment breakdown.
  3. Minimize production loss due to equipment failures.

Preventive maintenance or preventative[16] maintenance (PM) has the following meanings:

  • The care and servicing by personnel for the purpose of maintaining equipment in satisfactory operating condition by providing for systematic inspection, detection, and correction of incipient failures either before they occur or before they develop into major defects.
  • The work carried out on equipment in order to avoid its breakdown or malfunction. It is a regular and routine action taken on equipment in order to prevent its breakdown.[17]
  • Maintenance, including tests, measurements, adjustments, parts replacement, and cleaning, performed specifically to prevent faults from occurring.

Other terms and abbreviations related to PM are:

  • scheduled maintenance[18]
  • planned maintenance,[19] which may include scheduled downtime for equipment replacement
  • planned preventive maintenance (PPM) is another name for PM[20]
  • breakdown maintenance:[20] fixing things only when they break. This is also known as "a reactive maintenance strategy"[21] and may involve "consequential damage."[22]

Planned maintenance

[edit]
"Routine maintenance" redirects here. For the album by Aaron West and the Roaring Twenties, see Routine Maintenance (album).

Planned preventive maintenance (PPM), more commonly referred to as simply planned maintenance (PM) or scheduled maintenance, is any variety of scheduled maintenance to an object or item of equipment. Specifically, planned maintenance is a scheduled service visit carried out by a competent and suitable agent, to ensure that an item of equipment is operating correctly and to therefore avoid any unscheduled breakdown and downtime.[23]

The key factor as to when and why this work is being done is timing, and involves a service, resource or facility being unavailable.[18][19] By contrast, condition-based maintenance is not directly based on equipment age.

Planned maintenance is preplanned, and can be date-based, based on equipment running hours, or on distance travelled.

Parts that have scheduled maintenance at fixed intervals, usually due to wearout or a fixed shelf life, are sometimes known as time-change interval, or TCI items.

Predictive maintenance

[edit]
Main article: Predictive maintenance

Predictive maintenance techniques are designed to help determine the condition of in-service equipment in order to estimate when maintenance should be performed. This approach promises cost savings over routine or time-based preventive maintenance, because tasks are performed only when warranted. Thus, it is regarded as condition-based maintenance carried out as suggested by estimations of the degradation state of an item. The main promise of predictive maintenance is to allow convenient scheduling of corrective maintenance, and to prevent unexpected equipment failures.[3] This maintenance strategy uses sensors to monitor key parameters within a machine or system, and uses this data in conjunction with analysed historical trends to continuously evaluate the system health and predict a breakdown before it happens.[24] This strategy allows maintenance to be performed more efficiently, since more up-to-date data is obtained about how close the product is to failure.[25]

Predictive replacement is the replacement of an item that is still functioning properly.[26] Usually it is a tax-benefit based [citation needed] replacement policy whereby expensive equipment or batches of individually inexpensive supply items are removed and donated on a predicted/fixed shelf life schedule. These items are given to tax-exempt institutions.[27][citation needed]

Condition-based maintenance

[edit]

Condition-based maintenance (CBM), shortly described, is maintenance when need arises. Albeit chronologically much older, It is considered one section or practice inside the broader and newer predictive maintenance field, where new AI technologies and connectivity abilities are put to action and where the acronym CBM is more often used to describe 'condition Based Monitoring' rather than the maintenance itself. CBM maintenance is performed after one or more indicators show that equipment is going to fail or that equipment performance is deteriorating.

This concept is applicable to mission-critical systems that incorporate active redundancy and fault reporting. It is also applicable to non-mission critical systems that lack redundancy and fault reporting.

Condition-based maintenance was introduced to try to maintain the correct equipment at the right time. CBM is based on using real-time data to prioritize and optimize maintenance resources. Observing the state of the system is known as condition monitoring. Such a system will determine the equipment's health, and act only when maintenance is actually necessary. Developments in recent years have allowed extensive instrumentation of equipment, and together with better tools for analyzing condition data, the maintenance personnel of today is more than ever able to decide what is the right time to perform maintenance on some piece of equipment. Ideally, condition-based maintenance will allow the maintenance personnel to do only the right things, minimizing spare parts cost, system downtime and time spent on maintenance.

Challenges
[edit]

Despite its usefulness of equipment, there are several challenges to the use of CBM. First and most important of all, the initial cost of CBM can be high. It requires improved instrumentation of the equipment. Often the cost of sufficient instruments can be quite large, especially on equipment that is already installed. Wireless systems have reduced the initial cost. Therefore, it is important for the installer to decide the importance of the investment before adding CBM to all equipment. A result of this cost is that the first generation of CBM in the oil and gas industry has only focused on vibration in heavy rotating equipment.

Secondly, introducing CBM will invoke a major change in how maintenance is performed, and potentially to the whole maintenance organization in a company. Organizational changes are in general difficult.

Also, the technical side of it is not always as simple. Even if some types of equipment can easily be observed by measuring simple values such as vibration (displacement, velocity or acceleration), temperature or pressure, it is not trivial to turn this measured data into actionable knowledge about the health of the equipment.

Value potential
[edit]

As systems get more costly, and instrumentation and information systems tend to become cheaper and more reliable, CBM becomes an important tool for running a plant or factory in an optimal manner. Better operations will lead to lower production cost and lower use of resources. And lower use of resources may be one of the most important differentiators in a future where environmental issues become more important by the day.

Another scenario where value can be created is by monitoring the health of a car motor. Rather than changing parts at predefined intervals, the car itself can tell you when something needs to be changed based on cheap and simple instrumentation.

It is Department of Defense policy that condition-based maintenance (CBM) be "implemented to improve maintenance agility and responsiveness, increase operational availability, and reduce life cycle total ownership costs".[28]

Advantages and disadvantages
[edit]

CBM has some advantages over planned maintenance:

  • Improved system reliability
  • Decreased maintenance costs
  • Decreased number of maintenance operations causes a reduction of human error influences

Its disadvantages are:

  • High installation costs, for minor equipment items often more than the value of the equipment
  • Unpredictable maintenance periods cause costs to be divided unequally.
  • Increased number of parts (the CBM installation itself) that need maintenance and checking.

Today, due to its costs, CBM is not used for less important parts of machinery despite obvious advantages. However it can be found everywhere where increased safety is required, and in future will be applied even more widely.[29][30]

Corrective maintenance

[edit]
Main article: Corrective maintenance

Corrective maintenance is a type of maintenance used for equipment after equipment break down or malfunction is often most expensive – not only can worn equipment damage other parts and cause multiple damage, but consequential repair and replacement costs and loss of revenues due to down time during overhaul can be significant. Rebuilding and resurfacing of equipment and infrastructure damaged by erosion and corrosion as part of corrective or preventive maintenance programmes involves conventional processes such as welding and metal flame spraying, as well as engineered solutions with thermoset polymeric materials.[31]

See also

[edit]
Look up repair or revamping in Wiktionary, the free dictionary.
  • Active redundancy – Design concept
  • Aircraft maintenance – Performance of tasks which maintain an aircraft's airworthiness
  • Aircraft maintenance checks – Periodic scheduled inspection performed on aircraft to keep it airworthy
  • Auto maintenance – Periodic maintenance of motor vehicles
  • Bicycle maintenance – tools specifically for working on bicycles
  • Bus garage – Storage and maintenance facility
  • Darning – Sewing technique for repairing holes or worn areas in fabric or knitting using needle and thread
  • Department of Defense Dictionary of Military and Associated Terms
  • Design for repair – Procedure and discipline in various fields
  • Fault reporting – Maintenance concept
  • Intelligent maintenance system – System that uses collected data from machinerys
  • Kludge – Unmaintainable solution
  • Logistics center – hub for logistics
  • Maintainability – Ease of maintaining a functioning product or service
  • Motive power depot – Rail yard for cleaning, repairing and maintaining locomotives
  • Operational availability – Measurement of the actual versus predicted uptime of a system
  • Operational maintenance – Basic maintenance done by operators of the equipment
  • Predictive maintenance – Method to predict when equipment should be maintained
  • Product lifecycle – Duration of processing of products from inception, to engineering, design & manufacture
  • Prognostics – prediction of the time at which a system or a component will malfunction
  • RAMS – Engineering characterization of a product or system
  • Reliability centered maintenance – Concept of maintenance planning
  • Reliability engineering – Sub-discipline of systems engineering that emphasizes dependability
  • Repair shop
  • Remanufacturing – Rebuilding of product to original manufactured product using combo of reused and new parts
  • Right to repair – Legal right and movement
  • Total productive maintenance – Maintenance management methodology
  • Value-driven maintenance

References

[edit]
  1. ^ "Defense Logistics Agency". DLA.mil. Retrieved 5 August 2016.
  2. ^ "European Federation of National Maintenance Societies". EFNMS.org. Retrieved 5 August 2016. All actions which have the objective of retaining or restoring an item in or to a state in which it can perform its required function. These include the combination of all technical and corresponding administrative, managerial, and supervision actions.
  3. ^ a b Ken Staller. "Defining Preventive & Predictive Maintenance".
  4. ^ "MRO – Definition". RF System Lab.
  5. ^ a b c d e Federal Standard 1037C and from MIL-STD-188 and from the Department of Defense Dictionary of Military and Associated Terms
  6. ^ "AAP-6 – Glossary of terms and definitions". NATO Standardization Agency. North Atlantic Treaty Organization: 158.
  7. ^ United States Code of Federal Regulations Title 14, Part 43 – Maintenance, Preventive Maintenance, Rebuilding, and Alteration
  8. ^ Airworthiness Manual, Doc 9760 (3 ed.). Montreal (Canada): International Civil Aviation Organization. 2014. p. 375. ISBN 978-92-9249-454-4. Archived from the original on 2018-09-01. Retrieved 2018-02-18. The Airworthiness Manual (Doc 9760) contains a consolidation of airworthiness-related information previously found in other ICAO documents ... provides guidance to States on how to meet their airworthiness responsibilities under the Convention on International Civil Aviation. This third edition is presented based on States' roles and responsibilities, thus as State of Registry, State of the Operator, State of Design and State of Manufacture. It also describes the interface between different States and their related responsibilities. It has been updated to incorporate changes to Annex 8 to the Chicago Convention — Airworthiness of Aircraft, and to Annex 6 — Operation of Aircraft
  9. ^ Berendsen, A. M.; Springer (2013). Marine Painting Manual (1st ed.). ISBN 978-90-481-8244-2.
  10. ^ a b ISO 12944-9:2018 – Paints and Varnishes – Corrosion Protection of Steel Structures by Protective Paint Systems – Part 9: Protective Paint Systems and Laboratory Performance Test Methods for Offshore and Related Structures.
  11. ^ Singhvi, Anjali; Gröndahl, Mika (January 1, 2019). "What's Different in the M.T.A.'s New Plan for Repairing the L Train Tunnel". The New York Times.
  12. ^ Charles Velson Horie (2010). Materials for Conservation: Organic Consolidants, Adhesives and Coatings (2nd ed.). Butterworth-Heinemann. ISBN 978-0-75-066905-4.
  13. ^ a b Micharl Decourcy Hinds (February 17, 1985). "Preventive Maintenance: A Checklist". The New York Times.
  14. ^ Erik Sandberg-Diment (August 14, 1984). "Personal computers preventive maintenance for an aging computer". The New York Times.
  15. ^ "6 Tips to Keep Your Machine Cool in Summer | Al Marwan". Al Marwan Heavy Machinery. Retrieved 2024-06-20.
  16. ^ Ben Zimmer (April 18, 2010). "Wellness". The New York Times. Complaints about preventative go back to the late 18th century ... ("Oxford English Dictionary dates preventive to 1626 and preventative to 1655) ..preventive has won"
  17. ^ O. A. Bamiro; D. Nzediegwu; K. A. Oladejo; A. Rahaman; A. Adebayo (2011). Mastery of Technology for Junior School Certificate Examination. Ibadan: Evans Brothers (Nigeria Publishers) Limited.
  18. ^ a b "CPOL: System Maintenance and Downtime Announcements". Archived from the original on October 2, 2008. Retrieved March 21, 2019. ... out of service from 6:00–7:00am Eastern for regularly scheduled maintenance.
  19. ^ a b "Dodge City Radar Planned Maintenance". weather.gov (National Weather Service). ... will be down for approximately five days
  20. ^ a b "The development of a cost benefit analysis method for monitoring the condition of batch" (PDF). Archived (PDF) from the original on March 22, 2019.
  21. ^ "What is PPM Maintenance?".
  22. ^ e.g. from leaks that could have been prevented
  23. ^ Wood, Brian (2003). Building care. Wiley-Blackwell. ISBN 978-0-632-06049-8. Retrieved 2011-04-22.
  24. ^ Garcia, Mari Cruz; Sanz-Bobi, Miguel A.; Del Pico, Javier (August 2006), "SIMAP: Intelligent System for Predictive Maintenance: Application to the health condition monitoring of a windturbine gearbox", Computers in Industry, 57 (6): 552–568, doi:10.1016/j.compind.2006.02.011
  25. ^ Kaiser, Kevin A.; Gebraeel, Nagi Z. (12 May 2009), "Predictive Maintenance Management Using Sensor-Based Degradation Models", IEEE Transactions on Systems, Man, and Cybernetics - Part A: Systems and Humans, 39 (4): 840–849, doi:10.1109/TSMCA.2009.2016429, hdl:1853/56106, S2CID 5975976
  26. ^ "Spacewalking Astronauts Swap Out Space Station's Batteries". The New York Times. March 22, 2019. Retrieved March 22, 2019.
  27. ^ such as universities and local schools, which write government-acceptable receipts
  28. ^ CBM Policy Memorandum.
  29. ^ Liu, Jie; Wang, Golnaraghi (2010). "An enhanced diagnostic scheme for bearing condition monitoring". IEEE Transactions on Instrumentation and Measurement. 59 (2): 309–321. Bibcode:2010ITIM...59..309L. doi:10.1109/tim.2009.2023814. S2CID 1892843.
  30. ^ Jardine, A.K.S.; Lin, Banjevic (2006). "A review on machinery diagnostics and prognostics implementing condition-based maintenance". Mechanical Systems and Signal Processing. 20 (7): 1483–1510. Bibcode:2006MSSP...20.1483J. doi:10.1016/j.ymssp.2005.09.012.
  31. ^ Industrial Polymer Applications: Essential Chemistry and Technology (1st ed.). United Kingdom: Royal Society of Chemistry. 2016. ISBN 978-1782628149.
  • Public Domain This article incorporates public domain material from Federal Standard 1037C. General Services Administration. Archived from the original on 2022-01-22. (in support of MIL-STD-188).

Bibliography

[edit]
  • Maintenance Planning, Coordination & Scheduling, by Don Nyman & Joel Levitt Maintenance ISBN 978-0831134181
  • The Care of Things. Ethics and Politics of maintenance, by Jérôme Denis & David Pontille, Polity Press ISBN 978-1509562381

Sources

[edit]
  • Smith, Maj. Ricky. "Walter Reed Building 18 – It Could Happen Anywhere – So Don't Let It Happen To You". Archived from the original on March 9, 2012.

Further reading

[edit]
  • Wu, S.; Zuo, M.J. (2010). "Linear and nonlinear preventive maintenance" (PDF). IEEE Transactions on Reliability. 59 (1): 242–249. doi:10.1109/TR.2010.2041972. S2CID 34832834. Archived (PDF) from the original on 2016-08-18.

 

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