Key:design

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Public-images-osm logo.svg design
FL Itzehoe - Neumünster Mast7.jpg
Description
Describes the design of poles or pylons carrying high voltage electricity cables Show/edit corresponding data item.
Group: power
Used on these elements
may be used on nodesshould not be used on waysmay be used on areas (and multipolygon relations)should not be used on relations (except multipolygon relations)
Requires
Status: de factoPage for proposal

This key describes the design of poles or pylons carrying high voltage electricity cables. The main parameters are the number and positions of cross-arms. Cross-arms which only serve as support for earth wires should not be considered. See examples with suggested values below.

Towers or pylons

Picture Key Value Röntgen icon Description
Einebenenmast (110 kV)
design=* one-level Röntgen one-level transmission tower.svg A tower having cross-arms at a single level only.
150 kV tower (Netherlands)
design=* two-level Röntgen two-level transmission tower.svg A tower having cross-arms at two levels.
400 kV tower (Denmark)
design=* donau Röntgen donau transmission tower.svg A common sub-type of the two-level tower. It is characterized by having one conductor on each side at the upper level and two conductors at each side on the lower level. The "Donaumast" is widely used in central Europe.
Pgetower.jpg
design=* three-level Röntgen three-level transmission tower.svg A tower having cross-arms at three levels.
Power lines with fog, Milan.jpg
design=* barrel Röntgen barrel transmission tower.svg A common variation of the three-level tower. It is characterized by the middle level cross-arms being longer than the upper and lower cross-arms giving the conductor arrangement a barrel-like shape.
DSCI0402.JPG
两回110kV输电线路承载于两基上字型塔,摄于湖北省鄂州市。
design=* asymmetric Röntgen asymmetric transmission tower.svg A two- or three-level tower carrying only one circuit and having the conductors arranged in an asymmetrical layout.
60 kV tower (Denmark)
design=* triangle Röntgen triangle transmission tower.svg It has cross-arms at three levels providing a triangular arrangement of the conductors.
60 kV angle tower (Denmark)
design=* flag Röntgen flag transmission tower.svg All conductors are located at one side which forms the tower either a flag (hence the name) or letter "E" shape depending on the type of insulator and line attachment used.
Tannenbaummast.jpg
design=* donau;one-level A three-level combination tower effectively being a Donau tower having an additional lower level, often used for circuits of a lower voltage than those at the upper levels. This tag better describes the design than just using "three-level".
Hoogspanningsmast met 150kV en 380kV circuits in Helmond 3.jpg
design=* barrel;one-level Similarly to the previous entry, a combination tower, this time consisting of a barrel design on top and a one-level at the bottom.

For any other towers that similarly are a combination of two other designs, the value for design=* is a similar semicolon-separated combination of the top and bottom designs.
Pylon Shenzhen.jpg
design=* four-level,
six-level,
nine-level,
...
Röntgen four-level transmission tower.svg A tower having cross-arms at four or more levels. These tall towers may carry four or more circuits.
150 kv tower (Denmark)
400kV tower in France.
design=* delta Röntgen delta transmission tower.svg A y-shaped tower having a horizontal cross-beam between the two top structures. All conductors are attached to the cross-beam. It is mostly used for a single circuit.

A variation or subcategory is the French "chat", "cat" in English, towers shown in the second image designed for dual circuits.
Commonly using two phase lines inside at top and then either two arms each supporting two phase lines, or four arms each supporting a single phase line as shown in example.

345 kv tower near I80 (Nevada, USA)
design=* guyed_delta Röntgen delta transmission tower.svg A guyed variation of the delta tower
150 kV tower (Netherlands)
design=* delta_two-level,
delta_three-level
Röntgen delta two-level transmission tower.svg Röntgen delta three-level transmission tower.svg Delta tower having two or three cross-beams. Suitable for three circuits.
400 kV tower (Denmark)
design=* y-frame Röntgen y-frame transmission tower.svg Similar to delta tower but there is no horizontal cross-beam between the two top structures. The middle conductor is supported directly by the top structures.
400kv-x-frame.jpg
design=* x-frame Röntgen x-frame transmission tower.svg A variation of the y-frame tower having two legs. It is suitable for carrying a second lower voltage circuit on a crossbeam below the joint.
420kV and 132kV towers near Eidsvoll, Norway
Dual circuit 132kV tower near Karlstad, Sweden
design=* h-frame Röntgen h-frame transmission tower.svg A tower type having two (or more) separate pylons or poles connected by a beam to which the conductors are attached. The cross-beam extends beyond the vertical structures such that not all conductors are located between the vertical structures.

The h-frame tower is mostly used for a single circuit, but can be found as dual circuit as seen in the second image.

33 kV wooden tower (UK)
design=* h-frame_two-level,
h-frame_three-level
Röntgen h-frame two-level transmission tower.svg Designs like the h-frame tower, but having cross-beams at two or three levels.
Guyed-h-frame-tower.jpg
design=* guyed_h-frame Röntgen guyed h-frame transmission tower.svg A guyed version of the h-frame tower supported by guy wires, common in e.g. Scandinavia. Compared to the self-supporting h-frame tower this design normally has non-vertical legs. This detail is useful for distinguishing self-supporting towers from guyed towers in aerial imagery etc, since the guy wires are usually too thin to be directly visible in such imagery.
Portal tower at Kassø substation (DK)
design=* portal Röntgen portal transmission tower.svg A tower type having two (or more) vertical structures connected by a horizontal cross-beam. All conductors are supported between the vertical structures (unlike the h-frame tower). This design is mostly used as termination tower at substations.
Portal on a 735kV line in Quebec
design=* guyed_portal Röntgen portal transmission tower.svg Guyed version of the portal tower
Powertower-wide01.png
design=* portal_two-level,
portal_three-level
Röntgen portal two-level transmission tower.svg Röntgen portal three-level transmission tower.svg Two and three level versions of the portal tower.
735 kV tower (Quebec)
design=* guyed_v-frame A guyed tower type that is mainly used for ultra-high voltage lines e.g. in North America.
400 kV anchor towers (Denmark)
design=* monopolar A tower having no cross-arms, with insulators mounted on the tower itself. Mostly used as an anchor tower at very high voltage and/or long spans. This tower type is typically used in groups of three, with each carrying one phase. There are two recommended options for mapping such a group. Either map all three towers and connect the power line to the middle tower. Or map only one tower and add the attribute triple_tower=yes to the tower.
Monopolar 735 kV tower (Quebec)
design=* guyed_monopolar A guyed version of the monopolar towers.
design:name=* When the tower design has been given a specific name by its designer it can be indicated by this tag, such as Wintrack (The Netherlands), Eagle (Denmark).

Poles

Picture Key Value Röntgen icon Description
Electricity01.jpg
design=* one-level Röntgen one-level transmission pole.svg A pole with a single cross-arm, usually supporting only one circuit. This is the default type.
09761jfBaluga Schools Halls Maestrang Kikay Talavera Ecijafvf 03.JPG
semi-horizontal_one-level A pole with one cross-arm, but with one conductor placed offset (i.e. on the top of the pole).
Upole5.jpg
two-level Röntgen two-level transmission pole.svg A pole with two cross-arms, usually supporting two circuits. Poles with two cross-arms, with two conductors supported on the upper cross-arm, and four conductors mounted on the lower cross-arm (resembling design=donau on power=tower) are considered two-level poles.
Famy,Lagunajf9888 06.JPG
three-level Röntgen three-level transmission pole.svg A pole with three cross-arms, usually supporting one to three circuits.
Batangas,Manilajf9614 12.JPG
four-level Röntgen four-level transmission pole.svg A pole with four cross-arms, supporting four circuits.
Famy,Lagunajf9888 04.JPG
Power Poles.jpg
asymmetric Röntgen asymmetric transmission pole.svg A pole with two cross-arms, but supporting only one circuit in a right triangle configuration. One conductor is mounted on the upper cross-arm, and the two conductors are mounted on the lower cross-arm, or vice versa.
armless_asymmetric Röntgen asymmetric armless transmission pole.svg Variant of the asymmetric pole, but with insulators mounted on the pole instead on the cross-arm.
Views of Candaba Viaduct Apalit Bypass Road fields 10.jpg
flag Röntgen flag transmission pole.svg Variant of the asymmetric pole, but with either three (single-circuit) or six (double-circuit) cross-arms. All insulators are mounted and facing at one side or direction which make the pole a flag-like appearance due to their formation (hence the name) or letter "E" shape depending on the type of insulator and line attachment used. If V-shaped insulators are used on a pole, the pole resembles the flag of Nepal but with only an extra V-shaped insulator that forms into a triangle shape when this type of insulator is mounted on a pole for single-circuit poles and on some poles, a support for overhead ground wire is used. For double-circuit poles, the insulators are equivalent to three flags of Nepal (six V-shaped insulators). Anchor poles can have horizontal insulators with an insulator in between, forming an anchor shape hence the name of a line attachment.
Power lines (2).jpg
Boinville-le-Gaillard - Pylône électrique 2.jpg
NLEX In Pulilan 2021jwilz.jpg
triangle Röntgen triangle transmission pole.svg Variant of the asymmetric pole, but with three cross-arms. Two insulators are mounted on the uppermost and lowermost cross-arms, and one insulator is mounted on the middle cross-arm, forming their formation a triangular formation. This is usually used on suspension poles, but can also be used on anchor poles, along with pole-mounted insulators.
380 kV Wintrack tower
bipole A pair of closely spaced but non-touching poles. The conductors are typically mounted between the poles. There are no cross-arms. Known as 'Wintrack' in the Netherlands. Both poles can either come in a flag or triangle pole design. The bipole should be mapped as a single pole.
0152jfBarangays Guadalupe Viejo Nuevo J. P. Rizal Makati Cityfvf 19.jpg
armless_triangle Röntgen armless triangle transmission pole.svg Variant of the triangle pole, but with insulators mounted on the pole instead on the cross-arm. Two insulators are placed on one side of the pole, and one insulator is placed on the other side, in the middle position of the two insulators on the other side.
Bulacanjf9975 17.JPG
flag Röntgen flag transmission pole.svg A pole without cross-arms, with insulators mounted on a vertical arrangement. The design is similar to the flag design for power towers (see Tag:power=tower#Tower design. They usually use pin insulators, but may use strain insulators when used as an angle pole on a sharp angle or line termination point (either, line_attachment=anchor,line_management=termination, or line_attachment=suspension) or both strain and pin insulators when used as an anchor or termination pole on a straight line power line segment.
semi-vertical A variant of the flag design, with one insulator longer than the two others. These are always used as suspension poles.
VN 22kV Třinec Lyžbice.jpg
delta Röntgen delta transmission pole.svg A pole with two insulators on two sides of the pole, and one insulator on the top of the pole. Unlike in delta tower, "delta" means a conductor configuration than a pole design.
60 kV wooden tower (Denmark)
h-frame Röntgen h-frame transmission tower.svg A pole type having two (or more) separate poles connected by a beam to which the conductors are attached. The cross-beam extends beyond the vertical structures such that not all conductors are located between the vertical structures.
33 kV wooden tower (UK)
h-frame_two-level,
h-frame_three-level
Röntgen h-frame two-level transmission tower.svg Designs like the h-frame pole, but having cross-beams at two or three levels.
monopolar A pole without cross-arms, with one insulator, either placed on the side or on the top, or an insulator set mounted of the pole. This typically hold single-wire lines, like single wire earth return systems on less populated rural areas or single-wire systems serving light loads, like houses or small businesses, or secondary distribution lines, including three-phase systems or split-phase systems.
guyed=* yes A pole with guy wires, used to stabilize it on a turning or terminating segment of a power line or to balance it on unbalanced power lines.
pole A pole with another pole, placed diagonally on the side and serving as a guy wire support.
design:incomplete=* yes A pole that supports only a number of conductors than the design is capable of.

See also