Talk:Gear

Latest comment: 25 days ago by 71.210.87.241 in topic Whats a cog?

Is this relevant?

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I think this paragraph in the article is completely irrelevant to the article and should be deleted. Comments? "There are several outcomes of gear shifting in motor vehicles. In the case of air pollution emissions, there are higher pollutant emissions generated in the lower gears, when the engine is working harder than when higher gears have been attained. In the case of vehicle noise emissions, there are higher sound levels emitted when the vehicle is engaged in lower gears. This fact has been utilized in analyzing vehicle generated sound since the late 1960s, and has been incorporated into the simulation of urban roadway noise and corresponding design of urban noise barriers along roadways.[2]" -- Dalebert 10/19/07 —Preceding unsigned comment added by 192.158.61.142 (talk) 12:39, 19 October 2007 (UTC)Reply


Help me design a gear train

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I need design procedure for winch means all the components of winch and how to design them

How about some nomenclature, such as pitch etc. Also maybe some of the physics involved (torque ratios etc) 7legs 010306

I think you need more help than Wiki is prepared to give you. Perhaps someone can refer you to a good textbook or handbook?
Atlant 15:16, 1 March 2006 (UTC)Reply
I do not think one sets out design a gear train. In this case it is a winch, motorised or otherwise to launch a boat ? Start with the motor you have, then the load you want to move and then you can design a gear train that will get the job done in a certain amount of time..

Gregorydavid 07:52, 16 May 2006 (UTC)Reply

Axis versus Axes

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This can be tricky.. Each gear has its own axis of rotation. Two gears have their respective axes of rotation.. In a train of gears there is the axis of rotation of the input and the output which can have the same orientation in space, ie along the X axis.. But changing my changing 'axes' to 'axis' yesterday wa wrong.. Gregorydavid 08:11, 16 May 2006 (UTC)Reply

Added Images of Helical Gears and a Worm and Pinion

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I took some photographs of gears from a Meccano construction set to make these images. Arthur Clarke 17:48, 31 July 2006 (UTC)Reply

I think the photo of helical gears is misleading - the upper pair don't appear to be parallel helical gears, they're the same crossed gears that appear in the lower half of the image, but shown in a parallel orientation. As pictured, the teeth would not mesh correctly. As stated in the text, in order to mesh correctly one gear would need its teeth to helix in the opposite direction to the other. 62.189.196.126 (talk) 13:24, 19 May 2010 (UTC)Reply
Yeah I see what you are saying. Unfortunately the only way to fix it is by taking a new photo. Wizard191 (talk) 18:00, 20 May 2010 (UTC)Reply

This image is exactly the same as one in an ad for gear made by David Brown and Sons Ltd that appears in "Sketches of Engine and Machine Details" by Wallace Bentley in the 6th ed of 1916. 89.195.207.33 (talk) 10:13, 24 June 2010 (UTC)Reply

We are talking about the helical meccano gears not the double helical gears. Wizard191 (talk) 22:41, 24 June 2010 (UTC)Reply

Removed US Specific Annotation

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I removed the US specific annotation "stick shift" against the reference to Manual transmission as there is already a redirection from "stick shift" and Manual transmission is the primary, and more explicit, title. Arthur Clarke 17:48, 31 July 2006 (UTC)Reply

Page contains errors of varying degees of obscurity

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I put this in the discussion because I've never edited a Wikipedia page before... so I'm shy, big deal. If anybody else wants to incorporate my suggestions, feel free. For reference authority, it's probably tough to beat Machinery's Handbook (practically any edition since the late Bronze age).

Double helical gears: A *train* of herringbone (double-helical) gears can usually (see below) be used instead of a train of spur gears without any need for different bearings because neither require bearing for axial thrust. However, it is *not* true that herringbone gears [of nonzero helix angle] "can be interchanged with spur gears" [of finite face width] because the teeth won't mesh (unless all gears in the train are 'interchanged', or in the trivial case of zero helix angle that doesn't warrant the 'herringbone' designation).

Note also that a pair of herringbone gears will mesh in only one axial position, aligning both helix angles of each gear. Spur or helical gears, on the other hand, can remain in mesh if one is axially displaced relative to the other. Which is advantageous (or disadvantageous) depends on the machine, of course.

It's probably worth noting the two obvious (but obviously incompatibale) standard ways to make a double-helical gear: The two opposing helices might meet in the middle of the gear with (a) addenda (teeth) from each helix coincident, or (b) addenda of one helix coincident with dedenda [spaces] of the other. The latter are "Wuest" herringbone gears.

Double helical gears: The teeth aren't "V-shaped", their shape of their flanks are involute (usually, though other forms also give correct action) just like those of spur and helical gears. I realize that profile isn't what the writer refers to, but IMO too few people appreciate that (non-rack) gear teeth are *not* v-shaped in transverse section. There must be a better way to say what is meant here, though nothing pops readily to my tiny mind.

Bevel gears: Should read "where two axes [not axles] cross at [a] point". Nothing really difficult about crossing axles at a point, except (a) difficult to arrange so both can rotate, and (b) it's generally not a feature of actual bevel gear sets (e.g. the floodgate example photo)

Bevel gears: While it's true that helical gears can be arranged to provide for "ninety degree rotation" of the *projected* axes of rotation, (a) the existing text is too limiting; helical gears can provide for any such angle, not just ninety degrees, and (b) the existing text omits an important detail; the two axes cannot be coplanar [except for the 'trivial' case of parallel axes]

It may be worth noting that internal and external spur gears are special limiting cases of bevel gears. Bevel gears mesh between coplanar axes; the term is generally reserved for intersecting axes. Ordinary (external) spur gears are one limiting case of parallel axes, i.e. zero pitch "cone" angle; internal spur gears are another limiting case of parallel axes, i.e. pitch "cone" angle of 180 degrees [though most spur gears use involute teeth and standard bevel gears use octoidal teeth, that's merely a standards-implementation detail]. Similarly, spur gears are a limiting case of helical gearing, i.e. zero helix angle. [It's not clear {to me, anyway, and I know no reference} whether helical gearing is a case of the various standard forms of spiral bevel gearing {e.g. Gleason's Coniflex, et al; I suspect not}].

Worm gear: The part that looks like a screw is a *worm*; the wheel with which it mates is the *worm gear* (well, usually; a worm will mate with spur and helical gears of corresponding tooth form and normal pitch, but only in point contact that is suitable only for light loads rather than the broader "line contact" it would achieve with a proper worm gear). The teeth of a worm gear extend across its concave face to contact the worm teeth through a greater angle of the worm's rotation. That is a worm and worm gear are *not* a special case of helical gearing (a worm might be a special case of a helical gear, though standard worm thread forms differ from standard helical gear teeth).

Worm gear: (same guy, later date): It is incorrect to claim that the worm is *always* the driver. It is *often*, but not always, true that the worm and gear are "self locking (the gear cannot drive the worm). If the helix angle of the worm is sufficiently high for the coefficient of friction between the worm and the gear, the gear can drive the worm.

Sector gear: Is merely a segment of a gear, which is not necessarily a spur gear. In the mentioned example of automotive steering gear, the sector gear is a typically a segment of a worm gear, not a spur gear.

Rack and pinion: Not limited to spur gears. There's nothing un-gearlike about helical pinions mating with skewed -- or even straight -- racks as long as the systems can deal with -- or profitably employ [e.g. backlash takeup] -- the resulting thrust or displacement. [no, I don't have any handy example]. The rack is a special case of spur (or helical) gear, with infinite pitch diameter and tooth count; all real racks are therefore special cases of sector gears.

Crown gear: Does *not* mesh correctly with a spur gear pinion [of finite face width]. A crown and spur gear could be made to turn each other through point contact at the ends of the teeth nearest the crown gear axis, but that would still not transmit uniform angular motion because the radius to the point of contact would vary as teeth engage and disengage. A crown gear is a special case of bevel gear (90-degree pitch cone angle); a bevel gear is required for correct mesh because the size of the crown gear's teeth (and spaces) vary with distance from its axis. The angle of the axes between a crown gear and fully-engaged bevel pinion must therefore be greater than 90 degrees, since the pinion must have some pitch cone angle greater than zero and less than 90 degrees (well, two crown gears can mesh, but that hardly deserves the name "gearing"; it's a clutch.

Hypoid gearing is different from all the above, industrially important, and may be worth mentioning; it's generally what's used in motor vehicle differentials IIRC. I don't have an authoritative reference defining the type.

Oops... originally didn't know how to "sign". 129.230.241.5 22:55, 4 October 2006 (UTC)Reply

History of Gears

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It would be nice to see a section on the history of gear wheels. This New York Times articlementions that

  • a geared computing device existed in the 2nd century B.C.
  • According to Dr. François Charette of the University of Munich museum, "It seems clear [that] much of the mind-boggling technological sophistication available in some parts of the Hellenistic and Greco-Roman world was simply not transmitted further... The gear-wheel, in this case, had to be reinvented."

I came to Wikipedia to determine when, prior to such discoveries as this, the gear had been considered to have been invented. But no info in this article. Wareh 21:44, 29 November 2006 (UTC)Reply

Well, if anyone wants to work on this, see the response at Wikipedia:Reference desk/Archives/Science/2006 November 29#History_of_Gears, and possibly consider such objects as Antikythera mechanism (the one in the Times article I linked), South Pointing Chariot, watermills and Salisbury cathedral clock. Wareh 01:20, 1 December 2006 (UTC)Reply
I came to the article to find out when gears were first invented, so I noticed a history section missing too. pgr94 (talk) 16:08, 12 November 2009 (UTC)Reply
OK, we now have a brief "History" section that briefly mentions all the items Wareh listed. But I suspect that is only the very beginning of the historic things that could be mentioned here. --DavidCary (talk) 18:44, 21 August 2014 (UTC)Reply

Removed subhead, "History of the differential gear", keeping the content. Differentials are never discussed on this page, so their history as separate from gears in general is not pertinent. Also, most of the items discussed were not actually differentials! I also removed some minor text which were verbatim quotes from the source. I did add a See Also for Differential, as they are way cool. ChrisMiddleton (talk) 22:37, 11 September 2015 (UTC)Reply

The rare driven worm

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The article currently contains the following statement:

The worm is always the driving gear.

While this is true probably 99-44/100% of the time, this isn't always true. I once saw a mechanism that drove a very-high-pitch worm in order to achieve a very large speed step-up ratio in a single gear pair. I can't remember exactly what was being driven; it might have been a flyball governor.

Unless somebody has a citation, we probably shouldn't edit the article, but I thought I'd note this for the record here ion the talk page.

Atlant 17:03, 5 December 2006 (UTC)Reply

You’re right, I remember that as well here (second music box) you see one (the little white metal speed regulator fan). --Van helsing 13:31, 8 December 2006 (UTC)Reply
YES! That's it! If I get a chance, I'll take a photo and add it to the article (as a citation of sorts). Thanks!
Atlant 13:41, 2 February 2007 (UTC)Reply

Whats a cog?

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I'm pretty sure the image of Chinese gears are actually cog. — Preceding unsigned comment added by 73.157.255.252 (talk) 07:24, 18 November 2024 (UTC)Reply

I believe that that is a ratchet wheel from a pawl and ratchet mechanism. 71.210.87.241 (talk) 19:25, 21 November 2024 (UTC)Reply

I was wondering if someone could put up a definition of a cog. I always knew it was gear related, but not exactly what it is. Fresheneesz 02:01, 11 January 2007 (UTC)Reply

Cogs are the protruding pieces on gears that interlock with the protruding pieces on the other gears. They are also called "teeth". A gear could be called a "toothed wheel" or a "cogged wheel".
Based upon the above, this gives rise to the saying that someone is just a "cog in the machine" - that means they are a very small part of a much bigger organization - just as one tooth is to the entire wheel or gear assembly.
Somewhat confusingly, the whole wheel (that is the whole gear) can also be called a cog.
Note that a cog can also mean other things. For instance, in carpentry, a cog is a tongue on a piece of wood which is intended to join into a corresponding grove on another piece of wood. (Note that this type of cog is performing sort of a similar function - that of interlocking into another piece) [1] Johntex\talk 04:47, 11 January 2007 (UTC)Reply
Hmm, thanks. Do you think cog deserves its own disambiguation? Fresheneesz 05:48, 11 January 2007 (UTC)Reply
It already has one. Please see Cog. Johntex\talk 06:42, 11 January 2007 (UTC)Reply
Cogged wheel also became shortened to cogwheel which then became shortened to cog, leading to the unfortunate double meanings of cog as gear and as tooth (see here [2]). I'll mention it when I refine the lead paragraph. I think I'll change the text describing the clock photo too. Right not it says clock with cogs, which is ambiguous. Gears and teeth are the preferred technical terms. -- Another Stickler (talk) 00:06, 8 December 2008 (UTC)Reply

An edit that had some good data

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This edit:

contained some good data, albeit badly formatted. As time permits, we should take that data and incorporate it into the article. Or perhaps our anonymous editor will try again for us?

Atlant 13:39, 2 February 2007 (UTC)Reply

'gears' are round mechanical objects often called toothed wheels, cogged wheels or cogs. a gear has teeth round its edge. these are what link with other cogs to form a rotational motion. the teeth can be called cogs too.


1 rpm = 1/30π rad/s?

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Stated in the article is 1 rpm = 120π rad/s. I think this is in error?

Actually, 1 rpm = π/30 rad/s. 120π = 3600 rpm.

its true — Preceding unsigned comment added by 116.202.42.205 (talk) 13:45, 5 December 2011 (UTC)Reply

Suggested merge of "Sprocket" into "Gear" article

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Definitely not. They should obviously be in something like a "Power Transmission" category but apart from being round sprockets and gears are totally distinct: different tooth form, different direction of driven wheel, different ways of accomodating increased loading etc. MarkMLl 16:30, 14 September 2007 (UTC)Reply

Suggesting a paragraph for the manufacturing methods of gears

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There should be a paragraph which briefly describes the manufacturing of gears, and the machines used for this process.

Nomenclature

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Tooth contact nomenclature is currently split between this article and a host of other articles listed at List of gear nomenclature. I think these need to be merged. Biscuittin (talk) 13:20, 3 January 2008 (UTC)Reply

I noticed that too, but I'm not very keen on the idea of merging more content into Gear because Gear is already such a very long article. I was wondering whether some content in Gear could be partly or wholly split off into other articles. The section on nomenclature is very long and rather breaks up the flow of the article; it could be split off and merged into List of gear nomenclature, or else transwikied to wikibooks per WP:NOT#GUIDE. - Neparis (talk) 04:35, 5 January 2008 (UTC)Reply
I think this page should be made more simple and more easy to read. —Preceding unsigned comment added by 86.143.119.109 (talk) 17:07, 16 October 2008 (UTC)Reply
I recently merged all of the stub articles referenced by list of gear nomenclature into that article. After seeing that most of that info is repeated here, I'm going to attempt to merge the info here into that article as well. This article is currently 52 Kb, so it definitely needs a trimming. Wizard191 (talk) 18:56, 29 December 2008 (UTC)Reply
The section has been organized as described here for over a year. I think it is OK to now remove the tag from the article section. OK? Heathhunnicutt (talk) 16:42, 19 January 2010 (UTC)Reply
What tag? (I'm probably just blind.) Wizard191 (talk) 17:19, 19 January 2010 (UTC)Reply
The one I just removed, which had appeared under "Double Helical" in November of 2009. I found no matching talk on this page, and wrongly assumed this subsection was talk on the subject of that tag. I removed the tag because it was undiscussed for several months. The OP can replace it and talk about it if they desire. :) Heathhunnicutt (talk) 03:15, 21 January 2010 (UTC)Reply
I agree that a significant portion of the detail in the Nomenclature section should be split and merged into List of gear nomenclature (though, perhaps, that should be renamed simply to "Gear Nomenclature") Pscyking (talk) 12:16, 24 September 2016 (UTC)Reply
The article List of gear nomenclature is nice but not what U R looking for if U need the terminus technicus for a special feature. The graphic in this article is quite more helpful. Leave it hear or rework the mentioned list for readability. If nobody does soon, I'm in favour of removing the tag. Horst Emscher (talk) 11:27, 30 September 2015 (UTC)Reply

Add a useful term: "backdrivable"

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A suggestion for an additional term: backdrivable.

A transmission is backdrivable if a force or torque on its output can move its input. An example of a backdrivable transmission is an automotive steering mechanism: when rock climbing in a 4WD vehicle, you should keep your thumbs on the outside of the steering wheel, because lateral torques on the front wheels can violently spin the steering wheel. An example of a non-backdrivable transmission is a machine head on a stringed musical instrument; although the worm can be turned to drive the worm wheel and tighten the strings, the enormous force on the worm wheel is unable to cause the worm to spin.

I'm not sure where to work this in, though, without adding a whole new section, and the article is pretty piecemeal as-is. Perhaps the article could use some reorganization, collecting terms together into an "Other terms" section? --Dan Griscom (talk) 12:22, 24 February 2008 (UTC)Reply

Definition of Module

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Would it be possible for a definition of normal and circular module? Normal module is referred to in the profile shift and rack shift, but not actually defined. Also, looking at the equation for Diametral Pitch (transverse), it appears that module (m) is used (i.e. PD = 25.4/m), but again, not defined. As the module can be used for calculating the pitch diameter (i.e. D=number of teeth x module), I would have thought the inclusion of the module was fundemental to an article on gears. I'm currently scouring the text books on my desk for a definition (no luck so far), but if anyone else has a definition, could they please post it? Thanks! StephenBuxton (talk) 09:31, 20 May 2008 (UTC)Reply

Found one from the Machinery's Handbook 26th Edition. I've also added a section about the module. Feel free to expand! StephenBuxton (talk) 16:15, 20 May 2008 (UTC)Reply

See definitions under General nomenclature. This sentence does not make sense:
Module
"A scaling factor used in metric gears with units in millimeters who's effect is to enlarge the gear tooth size as the module increases and reduce the size as the module decreases" —Preceding unsigned comment added by 129.78.64.105 (talk) 05:17, 24 August 2010 (UTC)Reply

Discussion of Gearing efficiencies?

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I think some discussion of transmission efficiency would contribute to this article. A basic definition of gear efficiency as the output torque divided by the product of input torque and gear ratio would be good. The only mention of efficiency is in reference to worm gears, and little is stated by comparison about the others. A list of different types of gearing and approximate efficiency ranges would also be very useful. Such a list may be difficult to find or compile, however. Barjeconiah (talk) 06:06, 28 March 2009 (UTC)Reply

Tooth space

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The definition list uses the term "tooth space" but never defines it. -Craig Pemberton (talk) 22:58, 9 November 2009 (UTC)Reply

I have removed both instances of this term. Wizard191 (talk) 23:13, 9 November 2009 (UTC)Reply
I think the same may be true of "operating addendum". Either way it's a bit confusing to me, a layman. -Craig Pemberton (talk) 04:51, 10 November 2009 (UTC)Reply
Also "datum circle" and some of the terms repeat. -Craig Pemberton (talk) 06:31, 10 November 2009 (UTC)Reply
Yes these need to be taken care of, however I feel that all but the general nomenclature section be merged with the list of gear nomenclature article. For more info on this see the #Tooth contact nomenclature section above. Wizard191 (talk) 19:31, 10 November 2009 (UTC)Reply
I have linked the datum terminology, but I can't find a definition for "operating addendum". I've found a few books that use the term, but don't define it, however it appears to be different from just an "addendum". Wizard191 (talk) 21:06, 10 November 2009 (UTC)Reply

"gear model" needs a definition.

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The article speaks of a "gear model" without defining it. What exactly is a gear model? pgr94 (talk) 21:06, 4 December 2009 (UTC)Reply

My understanding is that the term "model" in the gear#Gear model in modern physics section is referring to various conceptual models, the same as "model" in the hydraulics#Hydraulic models section. In this case, a teacher uses a physical object -- a gearbox -- as a visual aid to help a student understand something else.
It appears to me that there is no one single "gear model"; there are several more-or-less unrelated physical processes that are sometimes explained by analogy with physical gears.
How can we make this article less confusing? --DavidCary (talk) 16:58, 20 April 2015 (UTC)Reply

Translation

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In the begining it says something about gears meshing with a non-rotating rack and provides translation, but the link takes you to the begining of a page about traslation but not in terms of motion but in terms of language with a picture of the rosetta stone. I think this link needs to be fixed. —Preceding unsigned comment added by 69.136.72.16 (talk) 20:36, 19 January 2010 (UTC)Reply

I've fixed the link. Thanks for pointing it out. Wizard191 (talk) 21:14, 19 January 2010 (UTC)Reply

Hyperbolic Gear

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I see no section on the hyperbolic gear. Granted, its practical use is VERY limited, and I do not have a free-source image to contribute, but I feel that it merits mention on this page. 97.102.228.89 (talk) 00:55, 3 August 2010 (UTC)Reply

Are you referring to a hypoid gear? Wizard191 (talk) 12:15, 3 August 2010 (UTC)Reply

Physics

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How about someone do some mathsy physicsy stuff? Like, talk about the effect that gear pairs have on (rotational) speed, power, torque etc. Would, do you think, would it be OK if I tried writing something? 210.55.20.219 (talk) 21:31, 16 February 2011 (UTC) EricReply

Where you feel the article is lacking and you have something to add, feel free to chip in. That's what Wikipedia is all about. —Catsquisher (talk) 23:09, 16 February 2011 (UTC)Reply
I agree with Catsquisher. The information we insert in Wikipedia is not simply what we know and believe to be true - it is what can be independently verified from reliable published sources. Wikipedia has a policy of verifiability for any information that is likely to be challenged. Some excellent information about citing your sources can be found at WP:Citing sources.
There is a wealth of good information about developing articles, and enhancing existing articles, at WP:Article development.
Please think about creating a User account rather than contributing as an anonymous user. Becoming a registered User is free, confers extra privacy and has many other advantages - for example, we can all communicate directly with any registered User via that User's Talk page. Dolphin (t) 02:47, 17 February 2011 (UTC)Reply

Bevel gear angle

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This may seem a bit trivial, but the restriction on the angle between shafts of two bevel gears seems a bit arbitrary; surely an angle of zero degrees would simply be a coupling, while 180 would be a spur gear. While these might not be bevel gears per se, there isn't any inherent restriction (?) 80.229.172.13 (talk) 20:46, 14 February 2012 (UTC)Reply

You're correct, of course, from an etic classification viewpoint, and from an accurately parametric one. But alas, remember one of the tendencies of emic human thinking, and natural language nomenclature, which is to classify the cases with the parameter value of 1 or 0 as a "different" thing. Which is often the same as to say, that they "factor out" the parameter, and thus reduce the terms of the relationship to either equivalence or exclusive difference. Is a spur gear just a 179° bevel gear plus one more degree? Yup. But people don't necessarily classify it that way. Wrangling the nomenclatural conventions can be tough in scientific and technical fields, because you have etic and emic viewpoints colliding and competing for dominance. Is a circle an oval? To a mathematician, yes, it is a special kind of oval with some special properties. Same with a square being a rectangle—a special case of rectangles, with some special properties. But are circles "different" things from ovals, to an audience of elementary school kids? The teacher could be forgiven for treating them that way, within that context. The general (abstracted) theme is this: if the parameter value is 1 or 0, do you factor it out to reduce to equivalence (one homogenous set) or exclusive difference (two exclusive sets), or do you preserve the parametric relationship—(superset-subset, where subset has special properties). This theme is actually fun to pursue further, as a critical thinking exercise, stepping through all the assumptions of normal human cognition, to watch them hold up or fall apart, depending on which angle you view them through. Is "normal" thinking fair? Does it make sense? Turns out, often, no ... but there you are, living on planet Earth anyway, regardless. Some other favorite examples:
  • Are pickup trucks automobiles? Well, etically, yes, just a particular subset of them. But in the English language, a common layperson sense of the term "automobile" implicitly excludes pickup trucks. Logical? Not upon scrutiny, but hey ... tell a hundred million people to revise their language.
  • Is a pot a defective colander? Is a colander a defective pot? Are they two "different" things? Or are they members of a common superset, and the move from one to the other is just the move from a parameter value of 1 (where the parameter is number_of_holes) to a value of zero?
  • Does a 180° transition angle between two surfaces "count" as an angle at all? Mathematically yes, but what about layperson-"common-sense"-wise? Do the surfaces count as one surface?
  • Is a river just a larger stream? Is a creek just a smaller river? What is the exact nature of the boundary between their definitions, upon probing?
  • Are slippers shoes? Or are shoes, as a set of things, exclusive of slippers? Why or why not? One could set "outdoor" as a trait required of shoes. But does your scientific brain really believe that slippers "aren't the same thing" as shoes? Aren't they the same thing as shoes except restricted to a special indoor-only case? Perhaps, if the shoe-means-outdoor rule is enforced, then the English language simply lacks a name for the superset? But the superset does exist, nameless?
  • Is there any reason why water from the bathroom tap should be treated mentally as the slightest bit different from water from the kitchen tap? (The supply lines branch from the one same copper line, 3 feet behind the wall.) But many people can't help maintaining a mental boundary ...
If you step through enough cases, "normal" human cognition and language can begin to feel positively ridiculous! That's when you start to realize why certain fields turn to controlled vocabulary as a supplement to natural language .... — ¾-10 01:41, 15 February 2012 (UTC)Reply

Image nb 1

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In the first image, the speed of the smaller gear is not constant. Is this a program issue or is this right ?

--AXRL (talk) 12:07, 8 May 2012 (UTC)Reply

Gear as an icon

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Like in computer software, for settings and preferences. Let's add that! But where and how? If it's already there, pls disregard. Anna Frodesiak (talk) 05:43, 3 January 2013 (UTC)Reply

It should probably go either near the very top or the very bottom of the article, so it does not get lost in the 'noise'.
It could perhaps be included as a 'see also'-type Hatnote to another article such as 'Gear (disambiguation)', 'Gear icon', 'Gear (icon)', or User interface icons#Gear (assuming any of those target pages exist).
- Jim Grisham (talk) 22:11, 18 October 2022 (UTC)Reply

Second oldest gear found

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550AD (quite a gap)

http://objectwiki.sciencemuseum.org.uk/wiki/Byzantine_sundial_calendar.html

May be worth a mention.Geni (talk) 23:08, 5 August 2013 (UTC)Reply

History?

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there is no History section. Some history of this technology would be interesting. — Preceding unsigned comment added by 69.149.65.53 (talk) 03:46, 28 October 2013 (UTC)Reply

Yes. A History section has been added to this article. See also Talk:Gear#History_of_Gears. --DavidCary (talk) 03:28, 24 August 2014 (UTC)Reply

Difference between 'gear', 'cog' and 'cogwheel'.

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Is there any difference between these terms? The article did not really make that clear. 88.104.249.73 (talk) 20:36, 17 February 2014 (UTC)Reply

Helical gear picture is misleading

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The pictures of the pair of brass meccano gears in the Helical section is misleading, I think.

Although shown meshing in crossed configuration, in the parallel configuration the pair of gears are not suitable for meshing as one of them needs to have the opposite handedness. Displaying them as here gives the misleading impression that same-handedness will work in the parallel configuration. Gwideman (talk) 00:39, 15 July 2014 (UTC)Reply

I agree that the parallel configuration shown would not allow meshing for the reason you have explained. However, it is a relatively minor problem that only the eagle-eyed reader would detect (and I'm not one of them.) Wikimedia Commons has a small number of photographs in its category on helical gears but none of them is superior to the one we have here. See Category:Helical gears. Dolphin (t) 01:17, 15 July 2014 (UTC)Reply
Well it is definitely misleading and embarrassing. Just spent 2 minutes trying to make sense out of it before realizing there's none. Salmin (talk) 22:56, 10 February 2020 (UTC)Reply

Should include 'Biological Gear' finding (2013)? Or reference to appropriate article

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Should there be a section here on the 'biological gears' that were discovered in 2013? Or at least a link to some other appropriate page ("Biological Nano-machines" or something of the like?) if it exists.

(refs: "Functioning 'mechanical gears' seen in nature for the first time; Sep 12, 2013". Phys.org. Retrieved 8 February 2015.Burrows, M.; Sutton, G. (12 September 2013). "Interacting Gears Synchronize Propulsive Leg Movements in a Jumping Insect". Science. 341 (6151): 1254–1256. doi:10.1126/science.1240284. {{cite journal}}: |access-date= requires |url= (help)) Jimw338 (talk) 16:10, 8 February 2015 (UTC)Reply

Already there. Gear#Gear mechanism in natural world Andy Dingley (talk) 21:28, 8 February 2015 (UTC)Reply

Gearing listed at Redirects for discussion

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An editor has asked for a discussion to address the redirect Gearing. Please participate in the redirect discussion if you have not already done so. -- 65.94.43.89 (talk) 21:16, 21 March 2015 (UTC)Reply

Thank you!

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What a wonderful page! Great photos as well. This includes all things gears and has greatly increased my knowledge of gears. Thanks to everyone who has contributed to this page. — Preceding unsigned comment added by 61.69.24.118 (talkcontribs) 04:14, 18 April 2015

Dating of early gears: contradictory text

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"The earliest gears in Europe were circa CE 50 by Hero of Alexandria,[4] but they can be traced back to the Greek mechanics of the Alexandrian school in the 3rd century BCE and were greatly developed by the Greek polymath Archimedes (287–212 BCE).[5] The Antikythera mechanism is an example of a very early and intricate geared device, designed to calculate astronomical positions. Its time of construction is now estimated between 150 and 100 BCE.[6]"

If the earliest were circa 50, how can Archimedes have worked on them 3 centuries earlier? It can't even be "earliest known gears" because the Antikythera device is (as mentioned) much older than that. What was this supposed to say? IAmNitpicking (talk) 15:58, 29 May 2015 (UTC)Reply

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standard values of modules

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The 25 "standard values for modules" listed in this Gear article almost exactly match the "more rounded" R″10 series described in the Renard series article. However, there are a few exceptions.

Is there some technical reason for those exceptions, that make those "standard gear" values (1.25 mm, 32 mm, etc.) work better than more-rounded Renard series ( R″10 ) values (1.2 mm, 30 mm, etc.) or the unrounded Renard series (R10) values (1.25 mm, 31.5 mm) ? Or is there no particular technical reason, and those particular values are frozen historical accidents? --DavidCary (talk) 18:26, 22 July 2019 (UTC)Reply

image of spur gear in the general nomenclature section (under nomenclature) not accurate enough

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The image given here : https://en.wiki.x.io/wiki/Gear#General_nomenclature doesn't consider the term known as fillet radius. It doesn't show any curvature in the fillet region - i think that curvature which provides a small gap between the gears is important for the gear stresses to be elevated. So probably the image can be changed to one like these: https://player.slideplayer.com/80/13400230/slides/slide_17.jpg , https://player.slideplayer.com/80/13400230/slides/slide_16.jpg. Mr.Mog (talk) 11:12, 27 October 2019 (UTC)Reply

“first observation of mechanical gearing in a biological structure”

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mmm...we're going to have to broaden the context in-light-of new information: Johnfreez (talk) 10:51, 18 February 2021 (UTC)Reply

Previously believed to be only man-made, a natural example of a functioning gear mechanism has been discovered in a common insect - showing that evolution developed interlocking cogs long before we did. In Issus, the skeleton is used to solve a complex problem that the brain and nervous system can’t Malcolm Burrows The juvenile Issus - a plant-hopping insect found in gardens across Europe - has hind-leg joints with curved cog-like strips of opposing ‘teeth’ that intermesh, rotating like mechanical gears to synchronise the animal’s legs when it launches into a jump. The finding demonstrates that gear mechanisms previously thought to be solely man-made have an evolutionary precedent. Scientists say this is the “first observation of mechanical gearing in a biological structure” [1]

oops...this has already been pointed-out in another section of this talk-page..but perhaps there ought to be a mention of naturally evolved gears in the article introduction? Johnfreez (talk) 11:00, 18 February 2021 (UTC)Reply

References

Gear bearing article

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Could be the gear bearing article be included in the list of types? There are already two similar gear arrangements: "rack and pinion"; and, "epicyclic gear". George Rodney Maruri Game (talk) 01:54, 5 July 2022 (UTC)Reply