Search for maps of the General Staff on satellite maps. Cards. modern topographic maps

You can download these cartographic charms (all squares) in KMZ format here. If you need a specific square, find it on the layout below. There is also a hint with the names of the main cities or towns within the given square next to each square for the convenience of searching.

There was once a great and mighty Soviet Union, and overnight it was gone. However, he left a rich legacy - layouts, various navigation products for Ukraine, Georgia, the Baltic States, Russia. He left behind a lot of bad things, but I would not like to remember this. Let's talk better about the good, or rather, about this heritage so precious for modern travelers who tirelessly scour the CIS countries in search of adventure. Sometimes, for some areas, apart from these works, there is simply no other information about the topography of the area. As you know, vector maps of Ukraine and other post-Soviet countries are created and updated by enthusiasts, but not by government departments specially created for this, since, unfortunately, departments simply do not exist yet.

Of course, most of these maps are old - from the 80s or even 70s, and over the past time a lot has changed and changes - bridges disappear, new ones appear, rivers dry up, swamps appear and so on. But the reliability of these General Staff publications for Ukraine is quite high even now. Of course, good modern vector maps are more suitable for orientation, but if there are no such maps for a given area and will not be available in the near future, then raster maps should be enough for orientation.

Now about how my site can help you and how this page differs from many others where you can download maps of Ukraine (USSR General Staff). Hover the mouse over the area of ​​interest, a hint will appear. When you click, you will see a window with a square you are interested in, which can be scaled. On the right you will see the link “Download square”. This is a link to jump a square in KMZ format. KMZ is a popular raster map format for navigators. This file format is supported by Garmin navigators and can be converted to other popular raster formats.

Good luck, friends! Wonderful hikes!

After the Second World War, military triangulations of independent states (Estonia, Latvia, Lithuania, Poland) as well as Germany were connected into one system (triangulation network 2, 3, 4 classes), An accurate triangulation network was necessary when creating a topographic survey with a scale of 1: 25000 and small-scale maps.

In the USSR, since 1942, Krasovsky's reference ellipsoid has been used. The Krasovsky ellipsoid is a reference ellipsoid, the dimensions of which were derived in 1940 at the Central Scientific Research Institute of Geodesy, Aerial Survey and Cartography (TsNIIGAiK) by the Soviet geodesist A.A. Izotov on the basis of research conducted under the general supervision of F.N. Krasovsky.

The dimensions of the Krasovsky ellipsoid were derived from the degree measurements made on the territory of the former USSR, Western Europe and the United States. Although the above-mentioned degree measurements, together with the definitions of the force of gravity, led to the conclusion that the geoid figure could be more correctly represented by a triaxial ellipsoid, nevertheless, the ellipsoid was taken in the form of an ellipsoid of revolution.

The Krasovsky ellipsoid is characterized by the following values: semi-major axis a 6378 245 m; compression of the Earth 1: 298.3.

The position (orientation) of the Krasovsky ellipsoid in the Earth's body is determined by the geodetic coordinates of the center of the round hall of the Pulkovo Observatory:
latitude B0 = 59 ° 46 "18.55",
longitude L0 = 30 ° 19 "42.09",
the height x0 is set equal to zero.

Krasovsky's ellipsoid is also used in geodetic and cartographic works in all countries. the former USSR, in countries of Eastern Europe, China, India, DPRK, South Korea, Mongolia and other countries.

On the territory of the former USSR, Russia and a number of other countries, a similar Gauss-Kruger projection is used for large-scale maps. In 1825, Karl Friedrich Gauss solved the general problem of depicting one surface on another while maintaining the similarity in infinitesimal parts. The working formulas for the projection were derived by A. Kruger in 1912. This projection is conformal, or conformal, i.e. preserves angles and directions.

In 1959-1969, the military graduated from the triangulation network of classes 2, 3, 4 on the territory of Lithuania, in which there were about 1800 points. Maps published in the USSR since 1942 use the 1942 coordinate system or SK-42. For civil purposes, a distorted coordinate system of 1963 or SK-63 with a shifted frame (s) was introduced.

At the end of the USSR era (1990s), the category of topographic maps included maps with scales1: 1000000, 1: 500000, 1: 200000, 1: 100000, 1: 50000, 1: 25000 and 1: 10000. Maps in scales of 1: 5000, 1: 2000, 1: 1000 and 1: 500 were considered topographic plans.

The 1: 1,000,000 scale map was considered strategic, while the 1: 500,000 and 1: 200,000 scale maps were considered operational maps. Maps in scale 1: 100000, 1: 50000 and 1: 25000 made up a group of tactical maps.

In the first decades after the war, the scale of the topographic survey was 1: 25000, in the 1990s the whole territory of Lithuania was covered by maps in a scale of 1: 10000 with horizontal lines every 1.0 or 1.5 meters. Using the map 1: 10000, the map was updated 1: 25000, the relief step on the map (h) was strictly connected with the scale of the map: on the map 1: 25000 h = 5 m, 1: 50,000 h = 10 m, 1: 100000 h = 20 m.

The main geodetic and cartographic work on the field of war was carried out by the military. Civilian organizations carried out a topographic survey on a scale of 1: 10000 (and larger) and a leveling network. Only at the end of the century, the maps began to be updated not by the military, but by Enterprise No. 5 at the head office of geodesy and cartography.

Nomenclature of maps of the coordinate system 1942

The nomenclature of topographic maps is based on a 1: 1,000,000 scale map (10 km in 1 cm).

The entire surface of the Earth is divided by parallels into rows (every 4 °), and by meridians - into columns (every 6 °); the sides of the formed trapezoids serve as the boundaries of the map sheets at a scale of 1: 1,000,000. The rows are indicated by capital Latin letters from A to V, starting from the equator to both poles, and the columns are Arabic numerals, starting from the meridian 180 ° from west to east. The nomenclature of a map sheet consists of a row letter and a column number. For example, a sheet with the city of Vilnius is designated N-35. Circumpolar regions (latitudes greater than 88 °) are designated with the letter Z without specifying the column number. Sheets of maps of millions, located between latitudes 60-76 °, are doubled in longitude; so, a sheet of a map with a scale of 1: 1,000,000 will have a length of not 6, but 12 ° in longitude. Above 76 °, the maps are quadrupled and occupy 24 ° longitude. Beyond 88 ° is sheet Z, which occupies the entire 360 ​​°.

Double sheets of the millionth map are indicated by indicating a row (letter) and two corresponding columns (odd and subsequent even number). Quadruple leaves are formed in a similar way, four columns are listed separated by commas.

Anyone who wants a lot of weird can google “Tutorial on military topography”. He himself studied at the university. There is a ton of old and useless material for tourists.

What will happen in this article:

So, what is useful to know about GS maps and what you need in practice.

Origin of map sheets and their nomenclature (number)

To begin with, a little repetition of what was in the previous articles.

This is how it looks:

File extension .gif- just a picture. How you can have sex with her separately is described in paragraph 2. And the file with the extension .map- the file that the Ozi Explorer program will open will find the path to the picture written in it (you downloaded both files into one folder, right?) And will show you a map on the monitor. The program will understand that this is a map, each point corresponds to some geographic coordinates. (The same two files, a picture and a .map, will be available for each map sheet on decent distributions from torrents.)

It's simple now. "File-print". Indicate what kind of scale you have, paper size and orientation, and that's it. The program also allows printing not the entire sheet, but a selected fragment.

Also, maps to scale, like Ozi Explorer, can be printed by the Global Mapper program.

If you followed one of these points, except for 1a, then printing on A4 paper you will spend 6 sheets on one sheet of the card, and on A3 size paper 3 sheets. Moreover, most of the paper will go into scraps. And then it will be necessary to glue the sheets from the printer into one card sheet. Naughty, but fun. Not having an A3 printer at home, I used Ozi Explorer to send the map to print to a virtual printer, which gave me PDF files, which I already carried on a USB flash drive to the A3 print service near the metro.

Of course, you can score on a print on a scale, but just take a picture file with a map, print it using the usual Windows tools on one sheet (well, at least A3, otherwise pornography will come out completely) and rejoice. True, then you will already have a map without a specific scale at all. It will definitely not work out to measure distances by it, to calculate directions too. Just how overview map will go.

How else to determine the scale?

In the pictures above, where I drew the origin of the map sheets, the length and width of the map sheet in degrees are written. As you understand, in practice, you will often get sheets where all the information outside the map frame was cut off, including the inscription about the scale (there was once a secrecy label that was removed, and a lot of information that interfered with the use of maps in the electronic navigator). And the frame always remains (if the person who scanned the map is not a scoundrel), and by calculating the width or length of the sheet in angular measures from it, you can determine the scale. One more method for determining the scale of the GSh map will be discussed.

General Staff maps in electronic form

When planning a trip at a computer or on a navigator screen, we are dealing with GS maps in electronic form, which is unnatural for them.

For viewing on a computer SAS Planet, which I have already named, is best suited; you can also view them on the Route.ru website or nakarte.me.

From the Android smartphone screen: LOCUS MAP. To him you need to put a package of maps from Eugene where there are GS cards and many others or from anygis.ru. Instructions for the application from me.

Into the Garmin Travel Navigator It is convenient to fill in the GS maps using the same site Routes.ru (download the kmz file and put it in the Garmin - Custom maps folder on the device. detailed instructions). You can also upload to Garmin as part of the JNX halyard. Such files can be generated using the same nakarte.me or SAS Planet (instructions). In order for your navigator to display JNX files, you need to buy a subscription to their BirdsEye Satellite Imagery service from Gamin or do something with the device. I have never seen people who bought this subscription.

How to find a location on a map using geographic coordinates (with GPS or by astronomical observations)

On many downloaded map files, you will see a frame around the perimeter of the map. The frame is cool. The presence of a frame allows you to get geographic coordinates (yours or some other object) from paper card in hand, without a computer and pocket GPS navigator. What for? The only situation that comes to my mind is a group of tourists who had an emergency, and they do not have a GPS navigator, but they have a GSh map and the ability to contact rescuers. It usually happens that there is a GPS, but there is no connection. In practice, I had to, on the contrary, using the coordinates in the device, poke my finger on a piece of paper in the place where we are (well, I did not have the GSh map in the navigator in electronic form!). In one of the previous articles, I have already told a little, gave this example.

This is the very rare moment when the coordinates format “degrees, minutes, seconds” comes in handy. (Read about other coordinate formats and which one is better to use)

For example. Our coordinates are 55 ° 41'10 "C 36 ° 3'50" E. Where are we on the map?

Each corner of the map's graticule contains the coordinates of that corner. Alternating black and white stripes - minutes of latitude or longitude. The dots next to the stripes are separated by tens of seconds.

Let's find the latitude first. The width of the bottom edge of the sheet is 55 ° 40'00 ”, put another strip up. We will have 41 ', and we reach the nearest point - this is another 10'. We put the ruler there.

We do a similar operation to find the longitude. Only from the corner of the map will we move to the right. The coordinates of the left edge of the sheet are 36 ° 00'00 ", up to the required 36 ° 3'50" we lack 3'50 "- these are three stripes and five points. We put the ruler there.

At the intersection of the rulers, there will be a turn in the road, which I circled in a yellow circle.

Having determined your location on the ground and finding it on the map, you can carry out the reverse operation by finding your coordinates. You just need to draw perpendiculars to the vertical and horizontal borders of the map, and then count the required number of stripes and points from the corners of the map. The resulting coordinates ... well ... uh ... dictate to the rescuers, probably.

Rectangular (kilometer) grid coordinates and Plane rectangular coordinates

Each textbook, presentation of tourist clubs and gurus in cartography considers it their duty to tell about it, to spend the darkness of their own and other people's time. And only the 1977 textbook on military topography says that this bullshit is used for target designation to gunners. Well, it's easier for them this way. The question is, why the heck torment your head with unnecessary information when the whole world and all other maps use a geographic coordinate system? Why do tourists need this system?

Yes, it gives us a coordinate grid with which we determine the scale of the map, if it is not indicated anywhere else!

Look at the numbers I've circled in red. This is the number of kilometers from ... Narnia / the land of the elves / the tail of the World Serpent, it doesn't matter from where, it doesn't change the essence, nobody has been interested in their absolute meaning for a long time. Who is interested

We are interested in the difference between them. As you can see, it is 1 km. Above, I wrote that the coordinate grid on maps goes in 2 cm. Divide 1 km by 2, it turns out 500 meters in 1 cm! This means that this is a fragment of the map of "five hundred meters" (1:50 000).

Sometimes, for convenience, these numbers are placed in the middle of the map and written at the stripes of the grid. This allows us to determine the scale of the map even if the map frame is clipped.

Symbols on topographic maps

Generally accepted designations. Nothing complicated, but you need to look it over a couple of times. Here are a lot of pictures under the cut:

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Topographic Maps

Topographic map is an integral part of long-distance hiking, mushroom picking, orienteering and quadra cross-country driving. Symbols on topographic maps such as:

Forest, urban-type settlements, power lines (power lines), bush, swamp, difficult-to-pass areas, unpaved road, trail, ford

etc. will allow you to walk through the forest, away from settlements a safe way. Topographic maps of the regions are offered in two formats:
- maps with extensions .ozfx, .ecw, .Gif, .png georeferenced for use on personal computer (PC), laptop with the operating system Windows xp, 7, 8, and tablets and mobile devices governed by operating system Android 2.2 and higher.
- Maps with expansion .jnx georeferenced for use in travel navigators of a company with service support BirdsEye.
Detailed topographic maps scale 1:25000 are now most in demand among both mushroom pickers and travelers because of the accuracy of their data on the terrain and other information. In our online store there are topo maps in Scale:
throughout the western Of Russia to the Urals including O. New earth and partially some squares of central Russia, Siberia and the Far East of the Russian Federation.
- 1: 50,000 (1cm = 500m or 500m) throughout the western Russia to the Urals, also some squares of central Russia, Siberia and the Far East of the Russian Federation.
- 1: 100000 (1cm = 1km or kilometer) throughout the territory of western Russia to the Urals, as well as some squares of central Russia, Siberia and the Far East of the Russian Federation.
- 1: 200000 (1cm = 2km or 2-kilometer) throughout Russia, partly in neighboring countries, CIS territories, Western Europe and Africa.
- 1: 500000 (1cm = 5km or 5-kilometer) throughout Russia, partly in neighboring countries, CIS territories, Western Europe and Africa.