Tuesday, December 22, 2015

Wijlre-Gulpen, Netherlands, 2015

Deutsche Version dieses Postings

As I promised, after the initial posting about mechanical interlockings in the Netherlands, I continue here with a sequence of photographs (and, hopefully, less text) about the signalling equipment at Wijlre-Gulpen. The next posting will, once again, try to highlight more conceptual aspects of Dutch mechanical interlocking.

The station tracks


In the following picture, which looks eastward, one can see the through track on the left and the loop track on the right. Near the loop track, the station building contains "post T," i.e., the train director's bureau:

Station building, Wijlre-Gulpen, 16.8.2015

Turning around, one can see the western throat. The loop does not (yet) have a starter, only an "S bord" (stop board). Besides the through track, starter C2 secures the line towards Schin op Geul. Behind points no.32, a barrier-protected crossing can be seen:

Station tracks towards Schin op Geul, Wijlre-Gulpen, 16.8.2015

Standing on the the crossing, one can see that there is an additional set of points into a stub track. In earlier times, the line to Schin op Geul was double tracked—these are the remnants of that second track. To the left of the line, one can see home signal D1 and, far away, the corresponding distant signal Dv:

Points to stub track, Wijlre-Gulpen, 16.8.2015

Inside post T, this track plan shows the signals, points, buildings and crossings of the station—however, this plan does no longer match reality!
  • The old trap points 302 are completely gone.
  • Switch no.32, where the two line tracks joined up, is now behind the crossing and has some other number.
  • Switch no.33 into the loop track is now no.32 and located inside the crossing.
The reason that this wrong plan is still in post T is probably that Wijlre-Gulpen right now is officially not a station. This can be seen from the fact that the stop signals are currently ignored by train crews:

Track diagram, post T, Wijlre-Gulpen, 16.8.2015

This is post T. Behind the large glass panes, one can see the interlocking frame with its block instruments and the chains on the levers:

Post T, Wijlre-Gulpen, 16.8.2015

The tent on the left was installed for a fair taking place a week later, if I remember correctly:

Post T, Wijlre-Gulpen, 16.8.2015

From this side, one can see the workplace of the "treindienstleider," i.e., the train director:

Interlocking frame and workplace, post T, Wijlre-Gulpen, 16.8.2015

In the next picture, one can see an interesting detail of Dutch interlocking frames: The case containing the block instruments is not mounted on top of the lever frame, rather it is suspended from brackets that run on short rails below the ceiling. This mounting allows a simple removal of the block instrument case when working on the route bars on top of the lever frame. Many such suspension brackets can be seen in the folder "Seinhuizen" (i.e., "signal boxes") on klassiekebeveiliging.com:

Interlocking frame, post T, Wijlre-Gulpen, 16.8.2015


Lever frame


Here is a picture of the lever frame—not all levers are currently operational:
  • The leftmost lever controls the home signal A1-2 and its distance signal Av on the Simpelveld side.
  • The starter lever B1 is currently not connected (although B1 is standing near the loop track towards Simpelveld).
  • Starter lever B2 has a chain, but the chain is not connected to a double wire leading to a signal.
  • The next lever is for points no.31 on the Simpelveld side.
  • The following lever is marked "Gr.31," where "Grendel" means "facing point lock:" This is the FPL lever for points no.31.
  • The next two levers are for points no.32 and its FPL towards Schin op Geul.
  • Two more levers for the future starter signals towards Schin op Geul are also not connected and don't even have plates.
  • The last lever is for home signal D1-2 (which is called D1 in the track diagram) and its distant signal Dv.

Lever frame, post T, Wijlre-Gulpen, 16.8.2015

http://www.klassiekebeveiliging.com/seinhuizenWij.htm has detailed diagrams and some pictures of earlier frames at Wijlre-Gulpen. One can see that in 2009, there were still the same number of signal levers, as there are signals right now. It seems that ZLSM is in the process of rebuilding Wijlre-Gulpen as a full-fledged crossing station once more, as it was at least until 1986—only now controlled from the single signal box at post T. The following picture shows some details of the still unconnected levers for the future starter signals B1 and B2, as well as the already fully connected lever for points no.31:

Levers, post T, Wijlre-Gulpen, 16.8.2015

On the other side of the frame, one can see the unlabeled starter levers C1 and C2 near the lever for home and distant signals D1-2 and Dv:

Signal levers, post T, Wijlre-Gulpen, 16.8.2015

In the following detail picture, one can see the small cutouts on the flanges of the chain rolls, where the locking rods coming down from the small levers lock the levers (see diagram in previous posting). Unfortunately, I have not taken pictures of the linkage that moves the small pistons ("Stößer" in the PDF from the last posting) that in turn moves the locking rod above it:

Chain rolls, post T, Wijlre-Gulpen, 16.8.2015

Here is an overview over all levers, with the small route and release levers moving the locking rods above them:

Lever frame and route and release levers, post T, Wijlre-Gulpen, 16.8.2015


Route and signal release levers


Details of the route and release levers with their locking rods can be seen in the next picture. The two plates above mark the route locking block instruments. Their full names are "route to Simpelveld" and "route to Schin op Geul":

Release levers, post T, Wijlre-Gulpen, 16.8.2015

Even more details can be seen in the picture of a signal release levers above a signal lever. I think that this lever can moved either right or left, depending on which track is to be reached by the incoming train. In both cases, the lower locking piece is lifted up and thus unlocks, via its locking rod, the signal lever below. This is an example of a "mechanical or," which is necessary for signals that are cleared for more than one track, and which are one of the more intricate problems when designing mechanical interlocking systems:

Signal release lever, post T, Wijlre-Gulpen, 16.8.2015

Here are all route and release levers:

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Here is another picture of the release levers for two starting signals—without a "mechanical or"— as well as, on the right, the release lever for the home signal with the "mechanical or":

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Once again, the whole row of route and release levers:

Route and release levers, post T, Wijlre-Gulpen, 16.8.2015


Route bars


On the back side of the frame are the route bars. Additionally, some signal release lever axles move contact sets, and there are a few relays, probably for the block circuits to Schin op Guel:

Route and signal bars, post T, Wijlre-Gulpen, 16.8.2015

Contact set, post T, Wijlre-Gulpen, 16.8.2015

Signal bars and relays, post T, Wijlre-Gulpen, 16.8.2015


Block instruments


This is the complete set of block instruments. One can see that the route locking instruments ("Wisselstr.") do not have buttons above, so they are blocked together with other instruments. For the next posting, I have to look into the details of working these instruments a little more:

Block instruments and route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Then, I will also try to explain the various types of block instruments:

Block instruments and route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Block instruments and route and release levers, post T, Wijlre-Gulpen, 16.8.2015

Block instruments and route and release levers, post T, Wijlre-Gulpen, 16.8.2015

For informing the signalmen about movements or other events, the same bells as in Austria were used: Besides the bell proper, they consist of a lid that falls down when the bell is activated. On the inside of the bell, there is usually some text explaining what has happened. After the signalman has taken the necessary actions, he can close the lid again. If the bell is mounted very high—as can be seen here—, a piece of cord is attached to an eyelet at the end of the lid. Pulling the cord will close the lid. Below the bell, there is a button which probably sends a signal to the opposite bell in Simpelveld:

Block instruments and bell, post T, Wijlre-Gulpen, 16.8.2015

To the left of the button, there is a plunger lock (button lock) for the block instrument "Voorbijg." so that blocking back to Simpelveld is only possible if a train has arrived at Wijlre-Gulpen from Simpelveld:

Bell and button lock, post T, Wijlre-Gulpen, 16.8.2015


Barrier control


In post T, there is also a control for the barriers mentioned at the beginning. If I understand it correctly, each barrier can be moved independently (like the gates in Britain)—we will see this also at the gate cranks at Simpelveld:

Barrier control, post T, Wijlre-Gulpen, 16.8.2015


Double wires


Now, let us leave the treindienstleider's seat and walk outside. The double wires run from the levers below the tracks to rollers that divert them to both ends of the station. At the rollers, chains are inserted into the wires—a distinctly British and Austrian, but not German idea:

Deflection of double wires, Wijlre-Gulpen, 16.8.2015

The chains for the missing starters are already lying in the pit, but not yet pulled around rollers:

Deflection of double wires, Wijlre-Gulpen, 16.8.2015

From there on, the wires run along the tracks to points and signals:

Double wires, Wijlre-Gulpen, 16.8.2015

Like in Austria, there are no horizontal rollers for slightly bending wire courses:

Double wires, Wijlre-Gulpen, 16.8.2015


Starter signal


Finally, here are a few pictures of the starting signal C2 at Wijlre-Gulpen:

Starter C2, Wijlre-Gulpen, 16.8.2015

At the foot of the signal, the wires are lead upwards:

Wire deflection at starter C2, Wijlre-Gulpen, 16.8.2015

Somewhat below the signal arm, there is the simple slide mechanism for moving the arm:

Starter C2, Wijlre-Gulpen, 16.8.2015

Starter C2, Wijlre-Gulpen, 16.8.2015

The following picture shows the slide mechanism in some detail. The wheel is turned by the wires, and via the groove it moves the finger on the lever linked to the signal arm. If one of the wires breaks, the wheel will fall to the position where the groove is on the lower side. The groove, however, does not continue around the complete wheel. Therefore, when the wheel falls to its "wire broken" position, the finger is no longer running in the groove, and the signal arm can fall freely to the stop position:

Grooved wheel and linkage at starter C2, Wijlre-Gulpen, 16.8.2015

So much for a set of pictures from Wijlre-Gulpen. The next posting will continue with some more considerations of the topics from the first posting.

Saturday, December 19, 2015

Interlocking frames in the Netherlands - a mix of British, German and Austrian practices!

Deutsche Version dieses Postings

In the following five postings, I will present photographs and explanations about the old Dutch mechanical lever frames.

In 2015, the Nederlandse Spoorwegen (Dutch Railways; NS) do no longer have a single semaphore or lever frame. However, in my vacation in August 2015, I visited the "Zud-Limburgse Stoomtrein-Maatschappij"—"South Limburg Steam Railway Company", abbreviated as ZLSM—in the utmost south of the Netherlands, which has lever frames and semaphores at two stations, namely a central signal box at Wijlre-Gulpen and a traffic bureau and two signal boxes at Simpelveld. Although the frames have been adapted somewhat for the requirements of the museum railway operation, they still exhibit many features of the old Dutch railway signalling principles and technology—which was, astonishingly, a rather peculiar mix of German, Austrian and British components! For all railway friends and especially signalling aficionados who want to look beyond the boundaries of their own country, I'll try to describe this interesting signalling world.

First and foremost, I would like to thank the signalmen at Simpelveld's post T and post I, who gave me the opportunity to take many photos and also helped me with some explanations about these frames!

Signalman and lever frame, post I, Simpelveld, 17.8.2015

NS and its two predecessors, HSM and SS, were members of the "Union of German Railway Administrations" ("Verein deutscher Eisenbahnverwaltungen", VDEV"), which can be seen in this entry in Röll's railway encyclopedia of 1912 (my translation):
[The Union] encompassed from thereon the German Empire, the Austro-Hungarian Monarchy, the Kingdom of the Netherlands, the Grand Duchy of Luxembourg (and the Kingdom of Romania, which is no longer a member) as inner domain, whereas railway adminstrations whose lines are outside these countries form the outer domain. The following compilation shows the development of the union's network from 1880–1914:
But even though the Netherlands were tightly included in the VDEV, which was dominated by Germany's railways, especially Prussia, quite a number of technical and organisational features of Dutch signalling are distinctly "non-German," whereas others are genuinely "Central European." Here is my list of fourteen topics, which I will explain a little more in this and following postings with text, links, and pictures. For each topic, I have added my personal impression of the "signalling culture" that matches it best. Obviously, this is a somewhat subjective categorization—still, it should highlight my claim that Dutch signalling is an interesting crossover:
  • a) Semaphores: Route signalling = "British"
  • b) Responsibilities: Typically, train director with overall operations responsibility in station building + pointsmen in dependent signal boxes = "Austrian"
  • c) Locking principles: Route locking = "Central European"
  • d) Frames: very often "Siemens&Halske" frames—most often their frame type 3414 = "Austrian"; however, gripping the lever handles with a piece of cloth is distinctly "British"!
  • e) Station block: Siemens block instruments, "German" version
  • f) Block working: Siemens block instruments = "Central European"
  • g) Coupling of station block and line block working: Decoupled = "German"
  • h) Single line block working: permission per train = nearer to "Austrian" practice
  • i) Locally operated points: with weighted levers = "Central European"
  • j) Points: without blade locks = "British"
  • k) Points: cannot be run through = "Central European"
  • l) Working signals and points: by double wire, without tensioners = "Austrian"
  • m) Slotting of signals: at signal = "British"
  • n) Railway crossings: Barriers = "Central European", but often moved with levers = "British"
Correction 8th Feb. 2016: It appears that points can be run through—at least, that's what I conclude from a more detailed look at some pictures of Dutch points at Wijlre-Gulpen. A posting explaining this will follow soon.

For researching Dutch semaphores and signal boxes, I mainly used the following websites—all of them are in Dutch, but with some knowledge in German and English and a dictionary the texts are quite easy to read:
  • The first site is seinarm.nl, which explains semaphores and their positioning quite extensively.
  • The second website is mainly about signal boxes and frames: http://www.klassiekebeveiliging.com/. An interesting page is this one, which shows interlocking at Simpelveld before the museum trains started.
  • Third, www.nicospilt.com has, under "Seinreglementen" (signalling rules) some information and, additionally, a signalling rulebook from 1934.
  • Last, but not least, there is some information about semaphores in the Dutch Wikipedia.
Let me now start with my items from above!


a) Semaphores: Route signalling = "British"


In principle, Dutch semaphore signalling was a route signalling system: At a station or branching, there was a separate semaphore for each track that could be reached (in contrast to that, the more modern light signals are a speed signalling system). Usually, cantilevers were user for placement of multiple arms for two or more routes. Additionally, there were signals with a single arm, used mainly as starting and block signals. However, as with most route signalling systems I know, a semaphore arm was often used to indicate entry into one of a group of tracks if these tracks were "sufficiently similar" (e.g., all tracks in a yard). The two sorts of signals ("simple signals" and "branching signals") were strictly distinguished in rules.

The following diagrams are from the Dutch Wikipedia entry about semaphores.

The simple distant and stop signals had a single arm. They could show the following aspects:
  • Distant signal (voorsein): "onveilig" ("unsafe", "slow", i.e., the corresponding stop signal shows "stop!") with a lowered arm; and "veilig" ("safe", "clear", i.e., the corresponding stop signal shows "clear") with a raised arm:

  • Stop signal (hoofdsein, "main signal"): "onveilig" ("unsafe", i.e., "stop!") with a horizontal arm; and "veilig" ("safe", i.e., "clear") with a raised arm:

Here are the three eastern starting signals in Simpelveld:

Starting signals C1, C2, and C3RK, 17.8.2015

The following picture shows home signal D and corresponding distant signal Dv at Wijlre-Gulpen from the back side:

Home signal D and (far away) distant signal Dv at Wijlre-Gulpen, 17.8.2015

At station entries and branchings, multiple signal arms were mounted side by side on a cantilever. Such a branching signal had arms with fishtail cutouts in a slightly enlarged head. In a sort of attempt at speed signalling, the height of the arm was used to indicate whether the subsequent track could be travelled with maximum speed or with a reduced speed: The highly mounted arms indicated maximum speed, lower arms restricted the speed to 45 (or sometimes 40) kph. As indicated above, sometimes a single arm could signal a route into more than one track, if all tracks had similar speed restrictions. This is similar to Austrian (and, I assume, German) route signalling before 1930. At most, four arms were mounted beside each other. Here are the corresponding diagrams:
  • Distant signal (voorsein): "onveilig" ("unsafe", i.e., all arms on the following branching signal cantilever show "stop!") with one lowered and one vertical arm; "veilig" ("safe", i.e., one of the branching signal arms for a route with maximum speed shows "clear") with one raised and one vertical arm; and "krom" ("branch", i.e., one of the branching signal arms for a route with restricted speed shows "clear") with one lowered and one raised arm:
  • The stop signals (hoofdsein) show the same aspects as with simple signals, just using arms with fishtails cutouts:

Home signals usually also had a distant arm for the start signal on the running track attached. Here is a photo of this combination from Simpelveld—unfortunately, I only took a picture from the back side:

Home signal B1-3 and distant signal Dv1 (for starter D1) from back side, Simpelveld, 17.8.2015

Around 1940, NS introduced speed signalling also with semaphores, in the following way:

In advance of a group of diverging tracks, it was now allowed to place a single-armed semaphore with a fishtail arm, whose upper half was red, whereas the lower half of the arm was white. The stop signal, however, did not indicate the speed restriction at all—only the corresponding distant signal would indicate "onveilig," "veilig," or "krom"—i.e., "caution," "clear," or "restricted." (A similar concept of signalling the expected speed only at the distant signal was used in Italy; and it is still used with signs for restricted speed zones, e.g. during works, in Germany and Austria). During nightfall, the single-armed branching signal would show a flashing green light (on a semaphore!). However, from 1942 onwards—i.e., in the middle of World War II—, the corresponding electrical circuits were deemed too expensive; instead, the arm was illuminated with an additional light.

Using these single-armed branching semaphores, the multiple signal heads at many smaller stations could be replaced with a single arm. But of course, many secondary lines did not have extensive route signalling at all, instead having only single-arm home signals, where the train crew had to understand via their time table whether they would travel into a loop or the through track. If a through train was to use a loop track, it would have to be "signalled down" at the home signal, and possibly be informed in writing at a previous station of the changed route.

Also Simpelveld and Wijlre-Gulpen have simple single-arm semaphores as home signals as well as distant signals, so that the underlying route signalling is not discernible. A last relict of route signalling is the symbol of two branch signal arms on the track diagram at post I (which I will show in a later posting) for leaving track 3 either towards Kerkrade or towards Germany. But the actual signal, as of today, is also a single-arm semaphore.

In addition to the semaphore type signals mentioned above, there were single-arm automatic block signals which showed "clear" unless the block ahead was occupied; and some branching signals with two round-headed arms mounted below each other. Some information about these signals can be found here at www.klassiekebeveiliging.com.

You can find pictures of original Dutch semaphores at these websites, among others:

b) Responsibilities: Typically, train director with overall operations responsibility in station building + pointsmen in dependent signal boxes = "Austrian"


The Dutch railways, as all Central European ones, have the concept of a "station" as a single unit with regards to operations (this is in contrast to English-speaking countries, where signal boxes essentially are independent operational units, irrespective of whether they are responsible for signals in the area of a single station or not. For more information about this distinction, please read Jörn Pachl's "German Block and Interlocking Principles – An Introduction for the foreign Reader"). Therefore, in the Netherlands, the responsibilities in a (larger) station are divided up between
  • the train director ("treindienstleider"), whose workplace is the traffic bureau ("post T"—the T is for "treindienstleider") in the station building;
  • and the pointsmen in signal boxes, who are responsible for setting points and (stop and distant) signals according to the train director's orders (usually, given with block instruments or over telephone).
In smaller stations, the treindienstleider operates the points and signals, so that such stations only have a "post T." An example for this is Wijlre-Gulpen:

Post T (traffic bureau), Wijlre-Gulpen, 17.8.2015

When a station is so large that its points and signals cannot be operated from a central "post T," it is necessary to set up signal boxes—typically, they are located at the station throats. In Dutch, these signal boxes are also called "posts," and they are numbered with Roman numerals. A larger station, therefore, has a "post T," a "post I," and a "post II." Simpelveld is such a station:

Block instruments at post T, Simpelveld, 17.8.2015

Post I, Simpelveld, 17.8.2015

Post II, Simpelveld, 17.8.2015

c) Locking principles: Route locking = "Central European"


In English-speaking countries, interlocking frames use elements that lock levers directly with each other (in German, such locking is called "cascading interlocking," because when a route is set up, the locking effects are cascaded through the interlocking bed). The consequence of this is that interlocking is always operational, regardless of whether the levers are reversed for shunting or for through trains. Because of this, addition of shunting signals is not too expensive—almost no additional locking is needed for them, only the necessary levers and signals. Historically, therefore, British (and American) signal boxes have been equipped with shunting signals almost since their first uses in the 1860s.

In contrast to this, Central European interlocking frames use freely reversible points levers without any locking facilities. Only when signals have to be cleared for a through train, the points levers are locked by special route bars. The reason for this is that initially and well into the 1880s and 1890s, all runs were over unsecured points, guarded by pointsmen (they also had to watch the station's signals, as these did not only convey information to the train crews, but also informed the pointsmen about train runs in their vicinity). When interlocking frames started to be installed, the practice that shunting was done without locked points was continued, whereas points under through trains had to be locked. This locking was done by locking the corresponding levers with route bars, which were installed from 1872 onwards in interlocking frames by Siemens&Halske and Büssing. Protecting trains by route locking has been standard since then for all mechanical and electromechanical frames in Central Europe.

Here is the interlocking frame at Wijlre-Gulpen, which has been modified for demonstrational purposes such that the route bars can be seen:

Route bars in interlocking frame, post T, Wijlre-Gulpen, 17.8.2015

At Simpelveld, the route bars move under glass covers:

Route bars in interlocking frame, post I, Simpelveld, 17.8.2015

d) Frame types: (among others) "Siemens&Halske" type 3414 = "Austrian"


According to www.klassiekebeveiliging.com ("Voorschriften voor de bediening van wissel- en seininrichtingen—Deel IV—Mechanische bedieningstoestellen"), lever frames in the Netherlands were mainly provided by the following companies:
  • Alkmaarsche Metaal- en IJzergieterij (Alkmaar metal and iron foundry)
  • Siemens&Halske
Alkmaar produced their own frame types, which were not only installed in the Netherlands, but e.g. also in South Africa. Later, they licensed and built frames from Siemens. Both Wijlre-Gulpen and Simpelveld have interlocking frames of Siemens provenience. However, Siemens produced a number of different types, and it is interesting to find out which exact type was installed in the Netherlands. The main types of mechanical frames constructed by Siemens are:
  • 3414
  • 3500
  • 3500a ("Romanian type")
  • 3500c (better known as type 5007, which was its number in the Austrian ministry's of railways plans from 1909).
  • and also the older type 12SA.
From a few looks at pictures of Dutch frames, it can be easily seen that the frames are of type 3414. However, the Dutch frames apparently were only built with straight handles, in contrast to the original stirrup handles which were discontinued after about 1900 because they could result in serious injuries when points were run through by an engine while being reversed (stirrup handles for signals, on the other hand, survived in Austria into the 1980s in frames at Süßenbrunn, Mistelbach and Frättingsdorf).

One can study the typical 3414 features more closely on the frame at Wijlre-Gulpen, which has been modified by ZLSM as an demonstration frame with open locking bed (or rather "route bar bed"). Here is a detail that shows the mechanics between the levers and the locking bed, and a second picture of the frame's left side with the typical "curved X" of the 3414 frame:

Interlocking frame, post T, Wijlre-Gulpen, 16.8.2015

Interlocking frame, post T, Wijlre-Gulpen, 16.8.2015

For comparison, here are two excerpts from 3414 diagrams from the standard book about Austrian interlocking frames, "Eisenbahnsicherungsanlagen in Österreich" by Christian Hager:



For interested readers, I have scanned the two pages in that book that deal with type 3414 frames (a click on the image opens a readable—German—PDF file):


Interestingly, Siemens also installed some 3414 frames in Germany, mainly on some lines near Berlin, as can be seen on this page about signal boxes in and around Berlin. This fact is unknown to most German signalling aficionados, and in fact was also unknown to a manager of the German Reichsbahn of the GDR, as is explained in a story on that page.

Additionally, 3414 frames were also present in other countries that formerly were part of Austria-Hungary. At present, I only know of one signal box with a 3414 which is in Becov nad Teplou in Czechia. This box and its frame is presented on this website.

Back to the Netherlands: As mentioned, most 3414 frames there were not built by Siemens, but by Alkmaar. The frame at Wijlre-Gulpen shows the abbreviation "AY" (and the year 1913) on its side, which points to the Alkmaar factory—however, "AY" is, as far as I gather, a genuine Alkmaar type, so that it is unclear (to me) why it was present on this Siemens type frame.

For further comparison, here are some more pictures of the frames at Wijlre-Gulpen and Simpelveld (from 2015) and the last Austrian 3414 with points levers at Frättingsdorf (from 1987):

Interlocking frame, post T, Wijlre-Gulpen, 16.8.2015

Interlocking frame, post I, Simpelveld, 16.8.2015

Interlocking frame, post II, Simpelveld, 16.8.2015

Interlocking frame, signal box 1, Frättingsdorf, March 1987

Interlocking frame, post T, Wijlre-Gulpen, 16.8.2015

Interlocking frame, signal box 1, Frättingsdorf, March 1987

After all this talk about the "Austrian-ness" of Dutch frames, I have to add one aspect of them which is genuinely British: As is the case there, the shiny handles of the levers are never touched with bare hands (as it is customary in Austria and Germany), but only with an intermediate piece of cloth:

Reversing a lever, post II, Simpelveld, 16.8.2015

And even the handles of block instruments are pressed down with that piece of cloth:

Blocking a block instrument, post II, Simpelveld, 16.8.2015

Blocking a block instrument, post II, Simpelveld, 16.8.2015

This is the end of my first posting about Dutch lever frames. The next posting will contain more photos (and not so many explanations), after that I will continue with comments about the fourteen topics mentioned at the beginning.