Talk:Smoke detector/Archive 1

Archive 1

Volume

I "heard" that in Canada tests have caused the volume of the smoke detector alarms to be increased beyond the pain threshold level. This was apparently driven by the discovered that many people, particularly children, had no trouble sleeping through a normal smoke detector even when it was positioned directly above their bed. A quick look around, and I couldn't find a cite.

Personal experience tells me this is true, though. My parents moved from their temporary apartment that was less than a year old into a newly constructed house. The detectors in both these locations are so loud as to be very painful, even for a few seconds while you push the "silent for 20 minutes" button (i.e. after burning the toast). Fracture^Talk   06:11, 2 September 2006 (UTC)

There's a ton of research on the volume of alarms. Recent studies gaining attention have tested the effectiveness of waking children with alarms of different volumes and in combination with voice recordings (parent's voices) Here's one such study from Australia's Victoria University: THE EFFECTIVENESS OF DIFFERENT ALARMS IN WAKING SLEEPING CHILDREN It supports your claim children are generally more difficult to awaken.MikeDayoub 22:07, 8 November 2006 (UTC)

I can believe it, too. I put some chips in the oven last year while drunk, fell asleep, and only woke up when every alarm in the house was going. The pain in my ears from the things was incredible. Very ow. And this little drunken baby would almost certainly have slept through an alarm only as loud as, say, my alarm clock.Unreadablecharacters 15:50, 29 November 2006 (UTC)

Disposal

What about discarding an old smoke alarm? Should a smoke detector be treated as special waste because of the radioactive source? Do people putting smoke detectors in the trash cause an environmental problem? I only found little about it here: [[1]] --Sasper 23:20, 15 December 2006 (UTC)

British-Columbia is currently the only current province in Canada that does any recyclign of alarms: http://www.productcare.org/BC-Smoke-and-CO-Alarms-FAQ Otherwise, the only method of disposal available is general household waste.

Replacement: Every 10 Years

http://money.aol.com/smoney/general/replacing-common-household-items —The preceding unsigned comment was added by 70.126.236.103 (talk) 07:20, 19 February 2007 (UTC).

Reliability

The two paragraphs under the reliability section are conflicting:

In the 1990s Texas A&M University did a full scale scientific investigation... The study determined that in a smoldering fire, with its relatively low number of large smoke particles, optical detectors fail 4.06% of the time, while ionization detectors fail 55.8%. For flame ignition fires, which have a large number of small, energetic smoke particles, photoelectric smoke detectors had a 3.99% probability of failure while ionization smoke detector failed 19.8%.

In 2004, NIST issued a comprehensive report... The report concludes, among other things, that "consistent with prior findings, ionization type alarms provided somewhat better response to flaming fires than photoelectric alarms, and photoelectric alarms provided (often) considerably faster response to smoldering fires than ionization type alarms".

The A&M study is likely interpreted or transcribed incorrectly and should be removed until clarified

Reasoning:

As a class, flaming fires produce larger numbers of invisible (.1 to .01 micron) particles of combustion than slow smoldering fires, (owing to the process of agglomeration of smaller smoke particles as they cool).

Photelectric detectors are by definition unable to detect invisible particulates (particulates so small they do not reflect a particular wavelength of light, e.g. less than 20% of the wavelength) Ionization detectors are readily influenced by these invisible particulates. Detectors operating on the ionization principle detect particles of combustion as they collide and combine with ionized air molecules, causing the ionized air to lose thier mobility . Each smoke particle thus becomes a collector of ions, and the number of ionized particles in the chamber once reduced, naturally reduces current flow proportionately. This reduction in current triggers the electronic circuitry and is interpreted as a smoke signature.

Simple observation will verify that the smoke particulates are most visible (larger) further from the fire.

a quick check of the Texas A&M Engineering web site supports this conclusion

Also reference the 18th edition of the Fire Protection Engineering Handbook for supporting documentation, and The NEMA Guide for Proper Use of Smoke Detectors Axcadd 04:09, 24 June 2007 (UTC)

Cigarette detector

I have removed this section. This section does not belong in this article, as it refers to optical flame detectors. However, there presently is not a flame detector article. Additionally, the specific application cited in this section - detection of smoking in schools - is not used as a portion of a fire alarm system, but rather is a method of aiding rule enforcement in schools. As this system and components have not been listed by a third party testing laboratory for use in fire alarm systems as required by model building codes, it cannot be used for that purpose. Therefore, it does not really belong in any article pertaining to fire alarm systems. Fireproeng 03:24, 23 July 2007 (UTC)

why is there a commercial website selling smoke detector products on this page???

Range of detectors from smoke to ultra violet - http://www.discountfiresupplies.co.uk/category/72/Fire-Alarm-Detectors

This link is actually a sales link with very limited useful information - please remove —Preceding unsigned comment added by 130.219.8.253 (talk) 20:25, 25 October 2007 (UTC)

I need to know more info on George Andrew Darby

I need a book,encyclipedia,etc. on George Darby

how is the anecdote 'unconfirmable' if his device was patented?131.111.200.200 (talk) 00:49, 26 August 2008 (UTC)

CO2 - a better indicator?

hi! should we mention that CO2 level can help to distinguish between dangerous smoke and "harmless" cig smoke or smoke from a pan or steam from a pot...? [2] i have heard that in kitchens IR detectors r the fire detectors of choice... bye --Homer Landskirty (talk) 13:57, 8 September 2008 (UTC)

i just did it... :-) --Homer Landskirty (talk) 09:03, 11 September 2008 (UTC)

Testing Section

I am not happy with the phrase "virtually all" because it is also uncited, but I feel that it is better than the previous wording. The problem here is that each state in the US has it's own codes for smoke detectors, and the NFPA doesn't require a test button that I can find anywhere. I have never seen a detector without one, and I talked to several friends (a couple internationals) and they concurred. I do not think it is universally required, but I think it is fairly universal. Thoughts? Zab 15:35, 7 April 2007 (UTC)

Also, this sentence: "Many people simply wave a lit match underneath the detector to test it; this is dangerous, however, as it can set the smoke alarm and the rest of the house on fire. A better way is to blow cigarette smoke into the detector." is one of the stupidest things I've ever seen. First of all, a lit cigarette waved under the detector is as dangerous, if not moreso than a lit match, partially because over several tests, the unfiltered tar can collect on the sensors and impair their function. Second, a lit match waved under a detector is not going to burn long enough to melt and ignite the plastic in a detector - even if held in one place. A better test than cigarette smoke would be: Light a match, blow it out, THEN wave it under the smoke detector. The match test is reliable, convenient, costs nothing, and I'd imagine is the preferred test for the majority of people who are nonsmokers and don't really want to buy or burn tobacco products in their homes for the sole purpose of testing their smoke detectors. 97.82.247.200 17:44, 5 July 2007 (UTC)

Funnily enough, the place I used to work, which manufactures detection systems, we did test it with cigarette smoke... It was much cheaper, and easier than canned smoke Nabifly (talk) 11:21, 11 May 2009 (UTC)

Most smoke detectors are not home residential. And these non-residential detectors, DO NOT have test buttons. The majority of detectors are in apartment blocks, hotels, office buildings, and so forth, and these are commercial detectors, which DO NOT have test buttons. So it is just incorrect. I'm adding {{fact}} Nabifly (talk) 11:21, 11 May 2009 (UTC)

Meh, I rewrote it to say that retail detectors had test buttons. Still, it seems to be in the wrong section (Design section). This article is horrible to tell the truth. It talks about smoke detectors as if retail were the only kind, when in fact, there is a much larger market in commercial/industrial detectors, and a lot of the information doesn't apply to the standard detector one would see in schools, high rises, etc. WRONG WRONG WRONG :-( Nabifly (talk) 11:30, 11 May 2009 (UTC)

Under no circumstances should alarms be tested using actual flames and smoke. There are no pathways for the smoke/heat to reach the test chamber from the front of any commercial alarms. That pathway is along the edge at the back of the alarm.

Even "smoke-in-a-can" product are dubious at best as the manufacturers of alarms do not test for that product. There is no way to know if there is any residue left in the detection chamber without opening it up afterwards. — Preceding unsigned comment added by 192.249.47.203 (talk) 16:47, 3 January 2014 (UTC)

Overhaul

Over the next week, I have decided to overhaul this article. A lot of the information talks as if it were talking about smoke detectors, when really it is talking about household smoke alarms. Most smoke detectors are not household smoke alarms. Therefore I am going to split all information related to household smoke alarms into its own section.

Also, this article is written a lot like a fire service 'stop drop and roll' advertisement, rather than being objective. I will also attempt to objectify it.

Thirdly, it completely lacks references. So I will be doing some research, and adding references into appropriate places.

--Nabifly (talk) 03:24, 12 May 2009 (UTC)

I have removed the section that gave times for fire -> alarm differences between ION and OPT detectors. According to a 2004 study by two British fire brigade departments: [3], there is usually very little difference between the performance of ION and OPT detectors, and also, the ION often outclassed the OPT detectors, even for smouldering fires. So unless, someone comes with solid proof, that there is a difference worth mentioning, there should not be this silly paragraph. 나비Fly ^Talk/_{Contributions} 05:29, 13 May 2009 (UTC)

General Problems with Article

The article hardly cites any sources and reads like smoke-detector propaganda, prescribing use, suggesting positioning, no asserting that batteries need be replaced semi-anually, etc. Additionally, the article is very North-America-centric, discussing NIST, UL, NFPA, "building codes" (which are presumably in the States?). Perhaps it could be rewritten / modified to have a broader, more neutral perspective. —Preceding unsigned comment added by 98.223.202.213 (talk) 03:05, 14 March 2008 (UTC)

Specifically, it says UK Building Regs require alarms but fails to provide a reference! —Preceding unsigned comment added by 91.84.88.136 (talk) 19:22, 17 July 2009 (UTC)

Typical Quantity of Americium-241 in a Household Detector

The article says this is 0.2 microgram, meaning one gram of Am-241 could make about 5 million detectors. According to my physics text book and http://www.uic.com.au/nip35.htm, one gram would make only 5000 detectors, meaning each contains about 0.2 milligrams. It matters little whether the material is oxide or pure metal, as each Am atom weighs many times more than an oxygen atom. I'll change the page now, but would welcome more info. StuFifeScotland (talk) 15:06, 27 January 2008 (UTC)

The wiki article on americium states "(about 0.2 microgram)" which seems more reasonable.Skipweasel (talk) 22:04, 4 February 2008 (UTC)

You don't need to rely on dubious sources, if you easily can calculate the amount. A commercial smoke detector contains about 1 µCi or 40 kBq 241-Am. The half-life of 241-Am is about ${\displaystyle T_{1/2}=}$430 years and the decay follows the exponential law ${\displaystyle {\frac {dN}{dt}}=-\lambda N_{0}e^{-\lambda t}}$ where ${\displaystyle \lambda }$ is the decay constant ${\displaystyle \lambda ={\frac {\ln 2}{T_{1/2}}}=5\times 10^{-11}s^{-1}}$. If now at time ${\displaystyle t=0}$ the smoke detector contains 40 kBq then this means that 40000 atoms of 241-Am decay per second and ${\displaystyle {\frac {dN}{dt}}=40000\mathrm {s} ^{-1}}$.

This given we can calculate the total number of 241-Am atoms ${\displaystyle N_{0}={\frac {A}{\lambda }}e^{\lambda t}=7.8\times 10^{14}}$ atoms. Each of these atoms weighs 241 AMU=${\displaystyle 4\times 10^{-25}}$ kg this gives a total weight for the 40 kBq of 241-Am of 0.3 µg or 300 ng. I will now again recorrect the article...

This also means that you can make more than 3 million smoke detectors from a single gram of 241-Am. Uwezi (talk) 18:31, 29 August 2009 (UTC)

in re: accuracy: that government guys c a need for 3 digits, so we can c it, 2... in re "dubious sources": the government guys r not dubious (but a src in compliance with WP:Q) and say 5000(sic! they 2) devices from 1gram ²⁴¹AmO₂... btw: i find ur computation WP:OR-ish... --Homer Landskirty (talk) 18:48, 29 August 2009 (UTC)

This has nothing to do with OR. 1 gram of radium has an activity of 1 curie (the definition of 1 curie). Americium has about 3 times the activity of radium because of the shorter half-life and the difference in atomic weight. 1 µCi of radium is 1 µgram - this should give you the ballpark figure without "own research". Their canadian neighbors get it right though: [4] Uwezi (talk) 22:46, 30 August 2009 (UTC)

ok - i m convinced now... i was just puzzled by the numbers given by the US gov... now ur 2 mathematical approaches (i didnt realize that u r a physicist...) and the new (canadian) reference feel fine... --Homer Landskirty (talk) 05:11, 31 August 2009 (UTC)

History

Anybody know any history? When was it invented, where, by who? Edward 10:45, 3 Jun 2004 (UTC)

Quote-The first battery-operated home smoke detector was patented in 1969 by Randolph Smith and Kenneth House.

What is the source of that quote?--AI 02:55, 16 Jun 2005 (UTC)

This http://inventors.about.com/library/inventors/blfiresprinkler.htm is the source of the quote.

WHAT IS THE SOURCE FOR THE ANDREW DARBY ARTICLE?

In case anyone is curious, most of this history is almost entirely FALSE. The first electric fire alarm was invented in 1890 by Francis R. Upton and Fernando J. Dibble, (US patent no. 436,961). And while Duane D. Pearsall may have invented A home fire alarm, there are records of similar home fire alarms ten years earlier. PLEASE let's fact check, people. —Preceding unsigned comment added by Deltadromeus (talk • contribs) 16:15, 6 February 2008 (UTC)

Chip Currier invinted the Smoke Detector, Find him and he can prove it. He still holds the first ever working smoke detector, and the original plans. —Preceding unsigned comment added by 72.193.147.236 (talk) 01:02, 9 October 2009 (UTC)

Am-241 also emits gamma rays

According to Americium#Physical, ²⁴¹Am also emits low energy gamma rays, which would presumably be able to escape the smoke detector. This should be mentioned in the article, which currently only says that it emits alpha particles which are stopped by the plastic. --169.232.246.70 (talk) 20:47, 16 April 2010 (UTC)

i added this: http://en.wikipedia.org/w/index.php?title=Smoke_detector&diff=356561460&oldid=356521437 --Homer Landskirty (talk) 08:03, 17 April 2010 (UTC)

should we additionally mention that 0.2µCi of ²⁴¹Am create about 74Bq gamma decays? the ⁴⁰K in a normal human body makes 4kBq according to WP... --Homer Landskirty (talk) 23:15, 2 May 2010 (UTC)

Analog Vs. Addressable

The article presents the term "Analog Addressable". An analog detector is a subset of addressable detectors, not all addressable detectors are analog type. In the industry, "analog" means that the detector (sensor) is relaying information (amount of smoke) back to the panel for the panel to make decisions on. The panel decides how much smoke constitutes an alarm condition.

With a plain addressable panel, the detector makes the decision of what constitutes an alarm, similar to a conventional detector. The detector has a hard coded alarm threshold.

The analog type allows advanced features such as variable sensitivity, pre-alarm warning, etc. Analog systems are generally more expensive. —Preceding unsigned comment added by 65.175.229.152 (talk) 21:21, 8 June 2010 (UTC)

i changed it... please cross check... --Homer Landskirty (talk) 08:13, 9 June 2010 (UTC)

Americanium nuclear bomb

because the americanium in smoke detectors is fissile it could be use to make an A-bomb. I just did the math and according to this it would that over 62 million smoke detectors to make said atom bomb.--GMWhilhuffTarkin (talk) 02:30, 8 April 2009 (UTC)

#Typical_Quantity_of_Americium-241_in_a_Household_Detector...? --Homer Landskirty (talk) 08:49, 16 November 2010 (UTC)

VESDA Merger Proposal

Rather than outright deleting the VESDA article, I believe it would be worthwhile to merge the content into the Smoke detector article, as it is another form of smoke detection that is not already covered in this article. While it may not meet notability on its own grounds, it may do so as a member of the smoke detector article/family. --206.53.253.150 (talk) 19:11, 2 April 2008 (UTC)

Asperating smoke detection systems should have thier own page as they are such different technology to standard point detection systems. As an installer of both I believe that while it should have a link from the smoke detection page, it should not be merged altogether. Standard point detection sytems are based on photo electric and ionisation technologies. The majority of asperating systems are based on laser detection chambers, and there should be more detail on that. —Preceding unsigned comment added by 210.9.193.66 (talk) 01:15, 14 April 2009 (UTC)

Agreed. It seems silly to merge, as they are very different from point detectors. However, there also exist point detectors with laser chambers, so that's not so much what sets it apart, but yes, there should probably be more detail on that. The article has already been renamed as Aspirated smoke detector, so it includes more than just VESDA. Should it have its merge tag removed? --Nabifly (talk) 10:19, 11 May 2009 (UTC)

I would agree that the aspirating article should be merged with the smoke alarm article, as it is a subset of the smoke alarm group. User6344 (talk) 18:15, 7 December 2009 (UTC)

Either the aspiration article needs to be merged with the smoke detector article, or the other unique detectors (like beam for example) should be given their own pages EEthug (talk) 19:47, 27 June 2011 (UTC)

smoldering fire response time

hi! this+this edits r dubious to me... according to the source for that paragraph, it is about thousands of seconds, when a ionization detector tries to detect a smoldering fire... what is right? thx. Bye. --Homer Landskirty (talk) 06:22, 21 October 2011 (UTC)

cäse cloased (Pink Panther (2006 film) is funny...): http://en.wikipedia.org/w/index.php?title=Smoke_detector&diff=456668002&oldid=456348833 :-) --Homer Landskirty (talk) 13:10, 21 October 2011 (UTC)

misnomer?

The title of the article is incorrect and misleading. A smoke detector is but a component of a stand alone household smoke alarm or smoke alarm system. Calling an alarm a "detector" is like an automobile (or car) an "engine" or "motor". — Preceding unsigned comment added by 192.249.47.202 (talk) 15:06, 1 February 2012 (UTC)

ok, but: http://www.merriam-webster.com/dictionary/smoke%20detector --Homer Landskirty (talk) 07:53, 2 February 2012 (UTC)

Lives saved?

Any info on how many lives per year are likely saved by these devices? --71.174.164.7 (talk) 05:48, 7 March 2012 (UTC)

in german wikipedia they say that 1987 9% of the UK househbolds had smoke detectors and 1998 about 75% in that time the number of death caused by fire shrunk by 40%... but maybe people stopped smoking in bed in the same time... or electrical devices became safer... :-) --Homer Landskirty (talk) 07:22, 7 March 2012 (UTC)

Alternative explanation of operation

Moved from in-line with article:

Note: The response mechanism given above -- "the ions will attach to the particles and so will be less able to carry the current" -- is repeated verbatim in many web-references regarding "how smoke detectors work", but is at best imprecise and at worst incorrect. A reduction in charge mobility results in a reduced signal current only if there also is a mechanism for removing charge that competes significantly with the collection of charge by the ionization chamber plates. That removal mechanism is recombination of positive and negative charged atoms, molecules, or smoke particles, as the case may be in any specific circumstances. Increased recombination rate can be the result of charge attachment to particles, but if that were the dominant mechanism then the ionization-based detector would have no supplementary advantage to the optical-scattering-based detector. The actual differential utility of the ionization detector is that it is sensitive not only to particles, but also to vapors or fumes generated by the fire, many of which -- particularly in home and hotel fires -- contain numerous halogen compounds which typically have large electron affinities, hence which capture electrons to form negative ions. The recombination rate between negative ions and positive ions is typically much greater than the recombination rate between electrons and positive ions. Negative ion formation and the concomitant increase in positive-negative charge recombination rate is the mechanism that makes the ionization-based detector an essential supplement to the optical-attenuation-based detector: it detects vapors or fumes, which often reach the "smoke" detector substantially sooner than any actual smoke particles reach it. See also the entry on the electron capture detector (ECD), commonly used as a gas chromatography detector for halogenated compounds, a detector that is exquisitely sensitive to species of molecules that have large electron affinities. A good experimental test of whether any particular "smoke" detector model is responsive to vapors or fumes versus particles is to probe it with a little chloro-fluoro-carbon (Freon) refrigerant or propellant -- which the ECD was invented to detect at low atmospheric concentration -- or sulfur hexafluoride (SF6) -- which is used to suppress arcs in high-voltage electrical equipment.

If this was referenced and cleaned up for style, it could be a useful addition to the article. Encyclopedia articles shouldn't have internal debate, but this is a byproduct of the Wikipedia process. --Wtshymanski (talk) 13:58, 13 August 2012 (UTC)

Photoelectric detectors

Note: There has been some recent research that has proven that "Photo-Electric" smoke alarms do a much better job at detecting large fires, whereas the Ionization detectors could only detect a small fire (which could in turn, could burn rapidly out of control) after a minimum of ten minutes! The photo-electric alarms however detected the fires almost a fast as they detected a large fire. This issue is still under investigation and research but the word is spreading and a few government (Australian, I'm not sure about others) organizations have admitted that these new alarms do work a lot better. — Preceding unsigned comment added by 203.166.253.179 (talk) 09:06, 5 June 2006 (UTC)

Smoke Detector vs Smoke Alarm

The introduction paragraph makes a statement that may need a rewrite of the article and its structure;

A smoke detector or smoke alarm is an active fire protection device, subject to stringent bounding, that detects airborne smoke and issues an audible alarm, thereby alerting nearby people to the danger of fire.

What I mean by this is that there is a difference between a Smoke Alarm comprising a sensor and audible warning device and a Smoke Detector that forms part of a network of sensors connected to an alarm panel.

Perhaps the article could be written with a summary of the technology of smoke detection (ionisation vs optical) and then the application of these technologies, being in the form of smoke alarms and smoke detectors. — Preceding unsigned comment added by Rport (talk • contribs) 12:12, 22 August 2006 (UTC)

Alternatively (by someone else): A smoke alarm is a device comprising a smoke detector and audible device. etc. The smoke detector might be incorporated into a device which communicates with an alarm panel. — Preceding unsigned comment added by 77.102.254.104 (talk) 04:45, 13 July 2009(UTC)

Suggest merge

Americium smoke detector contains no information not available from reading the package it came in and is redundant with this article; any unique content should be merged to give it context. --Wtshymanski (talk) 16:25, 18 March 2012 (UTC)

Done in April. --Wtshymanski (talk) 14:00, 13 August 2012 (UTC)

Typical smoke detector obscuration ratings

This table doesn't quite make sense. Ionization and Photoelectric are two categories of sensors used to detect smoke, while beam, aspiration, and laser are products that utilize these technologies in their product. Also, percent per foot is not how sensitivity is commonly measured in beam-type smoke detectors, which is probably why there is no citation for the value entered. I am going to reformat this table and obtain citations for all values unless there is reasonable argument against. — Preceding unsigned comment added by EEthug (talk • contribs) 18:38, 1 May 2014 (UTC)

Page is better now! — Preceding unsigned comment added by Qwertyuiopasdfghjklzxcvbnmkeys (talk • contribs) 02:32, 11 April 2015 (UTC)

 Fixed I just removed the uncited part about the beam and cleaned up the table a little. Hope that helps. – voidxor 21:04, 30 July 2015 (UTC)

 Fixed Also, I removed the uncited Air-sampling section, which was under the Design level-2 header right alongside Ionization and Photoelectric. You're right about air-sampling and beam just being specialized implementations of photoelectric. – voidxor 23:02, 31 July 2015 (UTC)

POV of Performance differences section

Ionization and photoelectric detectors each have their own merits, so why is the Performance differences section so anti-ionization?! Even the comparison table in that section shows that ionization detectors are more sensitive to lower obscuration values, on average (yeah, okay, so there's one photoelectric model than can supposedly 0.2%/foot, but that's clearly an outlier if you follow the reference). Furthermore, photoelectric detectors obviously stand no chance of ever detecting invisible smoke particles, which obviously won't obscure anything. If ionization detectors are so "deadly", why are they still on the market and legal in most places? Why are there combination detectors that offer both ionization and photoelectric technologies if photoelectric can do everything that ionization can do—just better? I don't buy it. We should probably find the other side of the argument and represent it here. – voidxor 21:16, 30 July 2015 (UTC)

i think that section is POV on another level, too: what performance? in F.Rep.Germ. i cannot see any 40% drop in smoke/fire/flame deaths (ICD-10 X0...), although the legislative ordered a lot of those photoelectric devices... furthermore smoke/fire/flame per (official) inhabitant seems to be more often in the US than in F.Rep.Germ., although F.Rep.Germ. does not have smoke detectors for decades... a newspaper said, that there is no proof for the usefulness of a smoke detector... but of course i do as the gov orders and check the functionality weekly by pressing the test-functionality-button (my computer has an alarm for that)... :) --Homer Landskirty (talk) 07:13, 31 July 2015 (UTC)

Should we maybe create a Legislation section and split the Performance differences section in half? That would at least take the biased chronological litany of local laws being passed, and move it away from the objective discussion of obscuration and the like. – voidxor 22:27, 31 July 2015 (UTC)

sounds like pretty good idea... the local legislation told me, that their decision is based on "belief" and not on scientific studies... --Homer Landskirty (talk) 06:21, 1 August 2015 (UTC)

The question is asked above, "If ionization detectors are so "deadly", why are they still on the market and legal in most places?" The answer is because the manufacturers fight to keep the truth about them from the public evidenced by the Confidentiality Order placed on campaigners after ionization smoke alarm manufacturer Kidde (owned by UTC) failed to disclose the level of smoke their ionization alarm activated at under controlled scientific tests conducted by the Australian government scientific organization, the CSIRO. This was despite repeated requests by an Australian member of parliament:

• Confidentiality Order: www.SmokeAlarmWarning.org/ba.html
• Request for disclosure of smoke obscuration by Australian member of parliament: www.SmokeAlarmWarning.org/csiro.html
• 60 Minutes Australia's ionization smoke alarm exposé, 'The Alarming Truth' (Oct 2014): http://www.9jumpin.com.au/show/60minutes/stories/2014/october/the-alarming-truth/

— Preceding unsigned comment added by 2607:FCC8:8600:2600:29C7:DF81:FDAE:23D3 (talk) 22:47, 3 August 2015 (UTC)

With all due respect, I worry your conspiracy theory might increase this article's bias toward photoelectric detectors, rather than helping to ensure neutrality. I'll go ahead and split the section though, as Homer and I'd discussed. – voidxor 19:15, 4 August 2015 (UTC)

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I'm impressed

When I checked this page's history I was sure the recent Nathan for You episode would have resulted in a flood of vandalism to this article, referring to the smoke detector (more specifically the blues smoke detector) as a musical instrument. But nope, none at all. I don't know how we managed that, but good job, I guess. Even though I don't see how it would have been anything but luck. flarn2006 [u t c] time: 17:25, 31 October 2017 (UTC)

cause and effect...

since 2007 it looks more red than yellow in F.Rep.Germ...

since 2007 the smoke poisoning increases in F.Rep.Germ...

since 2007 the number of final falls increases in F.Rep.Germ...

Hi! R there any scientific studies, that show the effect of a smoke detector? In germany it seems to be a mostly paradox effect, since they have legislation (appr. 2007) that enforces a smoke detector in escape paths and bedrooms... Thx. Bye. --Homer Landskirty (talk) 11:05, 21 December 2018 (UTC)

Hi!

• Is it normal, that final smoke intoxication gets more frequent, when u introduce smoke detectors?
• I mean: did that happen in the US/UK/Sweden, too?

Thx. Bye. --Homer Landskirty (talk) 10:38, 19 January 2020 (UTC)

strangely the X0 and T58 rate seems to be correlated, but then T58 rises independently since 2009... as if it is decoupled now... does someone here know, if it is still X0, when the patient is treated in an ICU for some days? --Homer Landskirty (talk) 23:25, 1 March 2020 (UTC)

Hi!

• The final falls increased, too...

Thx. Bye. --Homer Landskirty (talk) 23:23, 23 January 2020 (UTC)

official statement

The government of Baden-Würtemberg has not done and is not planning to perform an evaluation: see [5] — Preceding unsigned comment added by 178.7.195.200 (talk) 17:46, 21 February 2020 (UTC)

the German Medical Association does not know anything about it, too... https://fragdenstaat.de/anfrage/finale-sturze/ --Homer Landskirty (talk) 23:23, 1 March 2020 (UTC)

Stiftung Warentest recommends (2019) only detectors with long life (10 year) battery. As rationale is given: "Da die Batterien häufig gewechselt werden müssen, ist die Ersparnis klein. Sie steht in keinem Verhältnis zum Aufwand fürs Wechseln der 9-Volt-Batterien sowie zum Unfall­risiko beim Leiterklettern." [6] My translation: Since the battery needs to be changed frequently, the saving is small. It does not compensate the effort for changing the battery and the risk of an accident when climbing a ladder. — Preceding unsigned comment added by 178.2.176.255 (talk) 22:14, 8 March 2020 (UTC)

so they admit, that the smoke detectors have a paradox effect? but they still want those horrible inspections in my bedroom every year? --Homer Landskirty (talk) 10:40, 23 March 2020 (UTC)

EN14604 (for domestic smoke alarms)

Given that, certainly in Europe, this tends to be a standard generally cited at domestic point of sale, I think this needs some expansion. I have added a brief paragraph. Do we have a fire officer amongst us, perhaps, who can make some input here?

AlexBwineglass (talk) 14:14, 8 July 2021 (UTC)

Problems in History

I'm adding a Multiple Issues banner for the History section. The two kinds of issues are entangled, and not simple to resolve. Any assistance would be welcome.

I focus on three quotes from the section, preceded by paragraph number (within History):

para. 2: The first low-cost smoke detector for domestic use was developed by Duane D. Pearsall with Stanley Bennett Peterson in 1965, an individual replaceable battery-powered unit that could be easily installed.

para. 3: The first single-station smoke detector was invented in 1970 and made public the next year.

para. 4: The photoelectric (optical) smoke detector was invented by Donald Steele and Robert Emmark of Electro Signal Lab and patented in 1972.

The Pearsall/Peterson detector (para. 2) seems very clearly to have been single-station smoke alarm, so the statement from para 3 cannot also be true.

However, a simple copy edit to reconcile these claims is not sufficient, because of factual problems.

I recall from personal contact that Richard R. Saltzgaber (1917-2007) began the design, manufacture and sale of single-station photoelectric smoke alarms for home use in the early 1960s. In 1968, he formed a Florida corporation, Aljenik Industries, for the conduct of this business.

On the basis of my knowledge,

(a) Saltzgaber may have been manufacturing single-station smoke alarms for home use before 1965, and

(b) certainly was manufacturing photoelectric smoke alarms years before the Steele/Emmark patent cited in para. 4.

Accordingly, I understand at least two of the quoted statements to be incorrect, and likely all three.

Unfortunately, documenting the Saltzgaber/Aljenik history may be very difficult; I certainly don't have references I can cite at this time.

I recall that it was a turning point for his business when Richard's smoke alarms were carried by two large shop/mail-order chains, greatly increasing the volume of sales (which was never very great). I recall for sure that one of those was Montgomery Ward; the other might have been Sears.

If anyone has resources to search catalogs from the 1960s, it could help to provide a reference.

Etudiant~enwiki (talk) 20:54, 13 September 2021 (UTC)

Prioritize consumer and photoelectric

I'm starting a sequence of edits to prioritize information about consumer smoke detectors and consumer use cases. This is based on a belief that the primary users of Wikipedia are members of the general public rather than professionals who purchase or install commercial equipment such as commercial smoke detectors.

The driver for this is to make it easier to find objective information about purchasing and especially disposing of smoke detectors in the United States.

The plan is to move information about commercial-grade smoke detectors down while preserving that content, and to elevate use cases compared with specifications.

Bruce Esrig (talk) 14:30, 23 July 2022 (UTC)