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Road vehicles?

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Are vacuum brakes employed on heavy road vehicles and if not, why?Myrtone (the strict Australian wikipedian)

Use on road vehicles: Vacuum brakes were originally developed to provide a continuous brake through all the vehicles in a train. This was not necessary in a road vehicle. Furthermore, the requirement to maintain the vacuum (using the small ejector) meant a constant bleed of steam from the boiler, which would be harder to sustain in a road locomotive. It would have been simpler to use a straightforward steam brake, where a small piston acts directly on the brakes only when required. Indeed, this was the method used on "freight-only" rail locomotives intended for use on unfitted stock (i.e. waggons which carried only hand-operated brakes). Moonraker88 20:50, 15 April 2006 (UTC)[reply]

Air brakes is more fool-proof, and is not likly to suck dirt and other things into it as is the case if you have a road as compared to a rail underneat you. Also the English version of the Vacuum brake article is a joke compared to the German one i'm strongly considering translating that one to english and using it instead of the current one. And regarding steam breaks they are the prefered means of breaking a locomotive in any situation even if you do have vacuum/air-brake equipment on board.


Article Flow

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I think this article needs a bit of pruning. It doesn't flow very well for an uninformed reader -- and they are the people we are writing this for. Also several non sequiturs and logical jumps, and the inclusion of slang terms reduce the authority of the writing.

Afterbrunel 06:59, 7 August 2007 (UTC)[reply]

User:Afterbrunel is right in his criticisms, and I say this as the guilty party regarding some of the colloquial terms. However, his/her removal of the step-by-step operational sequence makes the article harder to follow for the "uninformed reader" and in my view is "pruning" too far. Some valuable material has been lost here. I am considering tidying and reinstating some of it, as a standalone "Operational sequence" paragraph. WP is not a "how to" manual, so possibly the detail of actually how to use the gadget (which I thought was interesting) could stay deleted. Views? --Old Moonraker 07:12, 19 August 2007 (UTC)[reply]

Happy for your improvements to be made. Can you give me a couple of days to finalise what I am doing (in case we cut across one another's edits)?

There's still a lot to do; by the way, I deleted most of the "other railways that use vackum" paragraph because it looked a bit non-authoritative -- I was expecting someone to put "citation needed" on it at any moment.

So far as Armagh is concerned -- obviously dear to your heart -- I am happy that you have reinstated it. Could you maybe just hone the wording a bit. When I read "This happened in the Armagh accident", I look for what it was that happened in the preceding words. (I presume you know that you can get the full text of the Inquiry at http://www.railwaysarchive.co.uk/documents/BoT_Armagh1889.pdf

regards

Afterbrunel 20:16, 20 August 2007 (UTC)[reply]


Sorry, I meant to say, after "because it looked a bit non-authoritative " that if you know of any way of checking that the information is up to date, that would be a great help. Afterbrunel 20:17, 20 August 2007 (UTC)[reply]

Thanks for the greeting on my talk page.
I will certainly wait until the changes have settled. The "Armagh" edits weren't mine (but the topic should be in). I am more interested in seeing the "operational sequence" material restored, as I think that it aided understanding.
The old diagram from the 1911 Britannica was poor, but the new one is misleading as it doesn't show the ball valve: how does the vacuum reach the space above the cylinders? How does the fail-safe "vacuum reservoir" operate? I was waiting until "Handbook for steam locomotive enginemen" from the British Transport Commission (one of my sources) comes out of copyright at the end of this December to replace that image with one or two from the book, but if really pressed I could draw one for use here, showing the critical components. This would not be any time soon, as I will shortly be on wikibreak.
I cannot comment on whether the "non authoritative" terminology is still current, but as it is original research, dating from my own days of firing and driving steam locomotives, it doesn't really have a place here.
I readily concede that the article "as was" needed improvement, but this is not yet it.--Old Moonraker 05:30, 21 August 2007 (UTC)[reply]


If you have a minute before you go, why not just put a few bullet points here about what you think is missing (and would plan to add when you get back).

I'm not being defensive about the diagrams, but: I wanted them to be as simple as possible; how does the vacuum get to the top? well, as the former non-authoritative text said, by having a flap piston ring like a bicycle pump does. But this only happens once a day (when the vehicles first get coupled to a locomotive after sleeping overnight) and never again during that day's work, so (I humbly suggest) it is a complication that migth not be essential.

Everyone: there are several things this still lacks, and anyone who can help would be welcome; no doubt you can see shortcomings yourselves, but these are the ones I can see:

  • Were the Caley and the GER the only UK companies that used Westinghouse? Did they do so exclusively, or only on some passenger stock? Did they do so throughout their lifetime or only for a time? Cna we track down a source?
  • When was the simple vacuum brake first adopted on a widespread basis? Ditto for automatic vacuum?
  • Did no European railways dabble with a vacuum brake? Ever?
  • Can we track down an authoritative source on what major railways still use vacuum if any?
  • When did BR (or whatever it was then called) discontinue using the automatic vacuum brake?
  • Can we add some more detail about freight use of the vacuum?

That will do for now.

Afterbrunel 17:10, 21 August 2007 (UTC)[reply]

I know it's been a while. However, regarding the continued use of vacuum, Iarnród Éireann ran vacuum-braked passenger trains until the end of March 2008 and still operates vacuum-braked revenue freight (at least for the Tara Mines ore traffic). I'd be a bit hesitant to just stick it in the article without some broader international context, though.Grover Snodd (talk) 17:09, 29 July 2009 (UTC)[reply]


Opposition to continuous brakes

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The opposition on the grounds of cost (particularly by the LNWR and it`s chairman Richard Moon) to the fitting of the automatic type of brake meant that it took a serious accident at Armagh in 1889 before legislation compelled the automatic system.

Why has this sentence, which I researched back in 2006 (but have only just noticed) been removed ? As far as I`m aware Richard Moon of the LNWR holds an infamous part in the history of the continuous vacuum brake. --JustinSmith (talk) 18:45, 22 January 2010 (UTC)[reply]

Wikiblame points to this edit. Perhaps it was deleted accidentally in this major change, possibly while intending to move it down to a "History" section or similar.--Old Moonraker (talk) 20:37, 22 January 2010 (UTC)[reply]
Richard Moon was not the only LNWR officer opposed to the automatic vacuum brake. F.W. Webb held a share of the patent rights for a mechanical continuous brake (the notorious Clark & Webb Chain Brake), and so received a royalty on every installation of it. --Redrose64 (talk) 21:12, 22 January 2010 (UTC)[reply]

Add a shortcut to another artice...

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Some people may come to this article to read about vacuum brakes in vehicles.. perhaps add at top: This article is about vacuum brakes on trains. For the usage of vacuum for brakes in cars, see Vacuum servo. Charlieb000 (talk) 23:48, 5 October 2016 (UTC)[reply]

"clearly unsatisfactory" explanation

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It seems a bit redundant given how it should be fairly obvious how inferior a system where you toot the whistle so that your mate can apply a single set of brakes in one wagon right at the end of the train is vs one where all the wheels of all the vehicles in the train are operated more or less simultaneously via a single lever in the locomotive, but, someone put a "how so?" tag on that sentence, so here we are. Hopefully my exposition passes muster. I was going to add something about how train brakes were considered scandalously insufficient for the task at hand even during the mid 19th century and there were newspaper-led campaigns to improve safety standards, but properly backing that up will require a citation scavenger hunt that I really don't have the taste for right now. There's enough evidence of it spread around the various articles detailing individual early-days railway disasters, however, if someone wants to give THAT a go... 80.189.129.200 (talk) 17:35, 19 March 2018 (UTC)[reply]

Inventor of the brake?

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Clearly, the inventor of the brake was an Indian, Col Guruprasad Das. Please find the citations herewith. Uddhav9 (talk) 19:30, 3 January 2020 (UTC)[reply]

http://www.uniindia.com/no-trains-yet-in-native-land-of-vacuum-brake-inventor/east/news/1694250.html Uddhav9 (talk) 19:36, 3 January 2020 (UTC)[reply]

https://www.revolvy.com/page/Barpeta Uddhav9 (talk) 19:40, 3 January 2020 (UTC)[reply]

More Information Please

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The main article states that when a train or vehicle has been standing for some time with the vacuum pipe open to the air, the pressures on both sides of the brake piston become equal because leakage will allow air into the upper part of the cylinder. I understand that this will release the brake since brake application relies on an upward force of atmospheric pressure on the lower side, and partial vacuum on the upper side. This delayed release seems to me to be a very undesirable feature. The supposed advantage of the system is its 'automatic' character - the brake will be applied to an entire train if, by accident, the train parts, and the vacuum pipe is broken. But if the brake on a detached part of a train is later released because of the mechanism mentioned above, the detached part would start moving again if it is on a gradient, and this would surely present an unacceptable hazard. Is this a correct understanding ? This scenario is not discussed in the main text. Andrewg4oep (talk)

@Andrewg4oep: I don't know which part of the world you live in. In the UK, all goods wagons and non-passenger coaching stock (whether vacuum braked, air braked or neither) have some form of handbrake for use when the vehicle is parked without a locomotive or brake van. Loco-hauled passenger coaches normally only have handbrakes in the guard's compartments, and since those without a guards compartment outnumbered those with by several times, coaches were normally left coupled together in rakes that included at least one vehicle with a guard's compartment. So vehicles that are parked up for some time will have the handbrakes applied.
The vacuum brake cylinder is provided with a release cord, usually identified by a white star painted on the solebar of the coach or wagon. When this cord is pulled, air is admitted to the upper part of the cylinder and the piston drops, releasing the brake. There are several reasons to use this cord: the three main ones are (1) to save time when shunting; (2) to equalise the brakes along the train when it enters service; and (3) to reduce wear.
  1. When shunting, wagons are frequently coupled or uncoupled. It takes more time to do this if the brake pipes need connecting or disconnecting each time; and since either of these actions completely destroys the vacuum in the brake pipe, it also takes time to re-establish the vacuum before the wagons may be moved again. So shunting is normally carried out with the vacuum pipes unconnected and the cylinders released.
  2. When a train starts off at the beginning of its duty, it is desirable that all the brake cylinders provide the same brake force as each other. By releasing all the brakes with the cord, and then using the locomotive's brake valve in the "full release" position to re-establish the vacuum, the cylinders may be balanced. This is particularly important when some of the vehicles in the train have been hauled by a GWR loco which could produce 25 inches of vacuum in the train pipe instead of the 20-21 inches used by other railways.
  3. When the train is parked at the end of its duty, all of the handbrakes are applied and then all of the vacuum brakes are released. The piston then rests on the stops at the bottom of the cylinder and is not trying to pull against the seals, which would shorten their lives.
There is also a reason connected with frost, but I can't remember the details. --Redrose64 🌹 (talk) 15:24, 24 July 2021 (UTC)[reply]
Thank you. So I suppose that the hazard I mention is not guarded against. Andrewg4oep (talk)
The detached part of a train is secured by virtue of its handbrake. --Redrose64 🌹 (talk) 18:40, 24 July 2021 (UTC)[reply]
"Loco-hauled passenger coaches normally only have handbrakes in the guard's compartments, and since those without a guards compartment outnumbered those with by several times...". So I suppose that the hazard I mention is not guarded against.Andrewg4oep (talk)
Coaches without a handbrake are not left alone when not in use, they remain coupled to a coach that does have a handbrake. --Redrose64 🌹 (talk) 11:19, 16 September 2021 (UTC)[reply]