EP2112300A2 - Foundation body, method for producing a foundation body and method for setting up a mast - Google Patents

Abstract

The method involves manufacturing a foundation structure (14) with a tower mounting plate (7). The manufacturing of the foundation structure is implemented at a distance from assembly place of the tower (1). The foundation structure is transported to the assembly place and is arranged over there. An independent claim is included for a method for manufacturing a transportable foundation structure for a mobile radio network tower.

Description

The invention relates to a method for setting up a mast, in particular a radio mast of a mobile network, a method for producing a foundation body for such a mast and such a foundation body.

Modern communication systems, such as mobile networks, often require a plurality of masts, on which, for example, transmitting and receiving devices are mounted. Due to concerns about possible health hazards of electromagnetic radiation from mobile networks, in some countries there is a difficulty in obtaining such permits for radio and / or transmitter towers requiring approval in whose approval process the public is involved. In some states, public participation procedures are only required for masts exceeding a certain height, for example 20 m. On the other hand, smaller masts, for example 12 m to 15 m high, can be erected without an approval procedure involving the public. Especially for such masts, but not exclusively, an improved method of constructing such masts is needed.

In the prior art, it is common to introduce a hole in the ground at the site of the mast, which extends for example about 3 m to 5 m in depth. In the borehole partially a mast support is sunk and the borehole is then filled with concrete. As a result, the mast holder is provided with a concrete foundation, which is firmly anchored in the ground. The mast support is usually formed as a hollow tube or at least partially hollow tube with a mounting flange. The hollow tube has one or more branches, consisting of the protrude poured foundation. In order to guide connection cable and / or supply cable to the mast through the mast support, the foundation is dug sideways, so as to gain access to the branches of the hollow tube of the mast holder. This represent with the hollow tube thus wiring recesses in the foundation produced. In this way, supply and / or connection cables can be guided to the mast, which is fastened by means of a connecting flange on the mounting flange of the mast holder, preferably screwed.

The method of the prior art just described has the disadvantage that a large number of work steps have to be carried out at the installation site, which can not be carried out in immediate chronological order. There is a high logistical transport effort, since the individual equipment and / or building materials with different vehicles and at different times must be transported to the site. In an optimal sequence, a period of at least four days is required for the erection of a mast at a site, for example, adjacent to a road.

The invention has for its object to provide a method for erecting a mast and a method for producing an improved foundation body and such a foundation body, with which a construction time of a mast at the site of the mast can be reduced.

The object is achieved by a method having the features of patent claim 1 for erecting a mast and a method for producing a foundation body with the features of claim 15 and a foundation body with the features of the claim 20 solved. Advantageous embodiments of the invention will become apparent from the dependent claims.

To solve the technical problem is provided, finished a foundation body spaced from the installation of the mast. This is then transported ready to the site and arranged. Subsequently, the mast is attached to the mast holder of the foundation body and the devices located on the mast connected to connection and / or supply cables. In particular, a method for erecting a mast, in particular a radio mast of a mobile radio network, is proposed, which comprises the steps of: producing a foundation body with an incorporated mast holder; Mounting the mast on the mast holder; wherein the manufacturing of the foundation body is performed spaced from the site of the mast, the foundation body is transported to the site and the foundation body is placed at the site. For the production of such a portable foundation body, a method is proposed which comprises the steps of: producing or providing a formwork; Creation of steel reinforcement; Providing a mast support; Providing concrete and pouring the concrete into the formwork, wherein the reinforcement and the mast support are at least partially disposed in the formwork during the casting of the concrete so as to form a foundation body in which the reinforcement and the mast support are fixed; and releasing the foundation body from the formwork. This results in a foundation body for a mast, in particular a mast of a mobile network, which is made of concrete and comprises a cast into the concrete mast holder. This creates the opportunity to build a mast in a single coherent operation. If a suitable transport vehicle is selected, which covers or transports both the foundation body, the mast and tools for raising and lowering the foundation body and erection of the mast, a mast can in a very short time in a once the site is accessed and connected.

The foundation bodies are preferably arranged in the ground. In a preferred embodiment is thus additionally provided that at the site a pit is dug, in which the foundation body is embedded and / or arranged. In addition, the pit is preferably back filled so far that the foundation body is enclosed by the soil. Also digging a pit at the site of the mast; placing the foundation body in place in the pit and, if necessary, filling the pit can be carried out in a work context with the remaining method steps for erecting a mast, i.e. without requiring additional access to the installation site. Preferably, a transport of the foundation body and the mast is thus carried out with a vehicle that includes or transports tools that are suitable for a lifting of the pit next to or alternatively to the raising and lowering of the foundation body. It will be apparent to one skilled in the art that, of course, various tools may be included for the individual operations.

In order to be able to connect the devices arranged on the mast to supply cables, the foundation body is manufactured with cabling recesses. The formwork is thus preferably created so that arise in the foundation body wiring recesses through which a connection between the mast and supply lines or supply cables can be produced. In the following, the term supply cable means all types of cables and cables that are necessary for connecting a pole. These may include, but are not limited to, electrical wiring for a power supply, electrical or optical data lines for connection to one or more communications networks, ground and / or lightning arrester lines etc. include. In some embodiments, it is provided that all or part of the wiring recesses are introduced through holes in the foundation body. The cabling recesses are provided to pass below ground level power cables routed through the foundation body and / or to the mast. Depending on the use of the mast, functional devices and / or units are mounted on it. If the mast is, for example, a transmitting and receiving mast for a radio network, for example a mobile telephone network, transmitting and receiving antennas are arranged on the mast.

In order to evaluate the received signals and / or provide the signals required for transmission, additional transmission and reception systems are usually required, which are not usually mounted on the mast. Advantageously, these as well as distribution and / or connection systems are housed in a housing, which is arranged for easy access above a ground level. A preferred embodiment of the foundation body is therefore produced in one embodiment of the invention so that the foundation body comprises a housing foundation for a housing for receiving distribution and / or connection and / or transmitting and / or receiving equipment, the upper edge preferably above a Erdgleiche ends when the foundation body is placed in the pit. The housing foundation is thus integrally integrated in the foundation body and protrudes from an upper side of the foundation body, on which the mast holder is arranged, beyond this upper side of the foundation body. Thus, it is possible to ensure that the housing is protected against moisture in the terrain in which the mast is placed. Preferably, the upper edge of the housing base is also arranged above the mast holder.

In order to carry out a wiring, the wiring recesses in the foundation body are thus preferably introduced in such a way that the supply cables can be supplied to at least one housing arranged on the housing foundation and at least one connecting cable or a connecting cable can be guided from the housing arranged on the housing foundation to the mast holder. In the following, all cables and / or cables are referred to as connection cables, which are necessary and / or suitable for connecting arranged on or in the mast functional devices and are connected in a specially arranged on the mast housing in which these optionally via connection devices and / or treatment, implementation or similar facilities are coupled with supply cables. Connection cables are therefore special supply cables. If, in the following context, supply cables and connecting cables are used in the following context, the supply cables are considered to be those which connect to a communication network or other supply network. As connection cable, however, only those who connect functional facilities on or in the mast.

It is particularly preferred if the wiring of the devices can be performed via cables that are guided inside the mast and the mast holder. Therefore, a preferred embodiment of the invention provides that in the manufacture of the foundation body an at least partially hollow tube with a mounting flange comprehensive mast holder is poured into concrete, so that the mounting flange protrudes from the foundation body or flush with it. The at least partially hollow tube is preferably integrated into the foundation body so that the at least partially hollow tube communicates with the wiring recesses.

In order to quickly establish the usability of the mast and reduce installation time at the site, is at a preferred Embodiment provided that on the foundation body spaced from the site of the mast, the housing for receiving the distribution and / or connection and / or transmitting and / or receiving equipment is mounted on the housing foundation. In addition, preferably, the distribution and / or connection and / or transmitting and / or receiving systems are arranged in the housing and pre-wired before the foundation body is transported to the site. Preferably, at least one connection cable and / or a supply cable and / or at least one pulling aid are thus spaced from the site in the foundation body introduced and / or laid in the wiring recesses.

The masts are preferably provided with the functional devices before being transported to the installation site. These are also already wired ready, the wiring is preferably performed to a connection panel, which is located inside the mast and is accessible via an openable installation flap formed in the mast. This is usually located about 1 m above a connecting flange or foot of the mast. This is preferably made hollow at least in the lower part, so that a connection cable can be passed through the lower part of the mast to the connection panel and can be connected there to the connection field. In a particularly preferred embodiment, this connection cable is already so advanced in the foundation body and cut to length, that it can be easily inserted at the site in the lower part of the mast, led to the connection panel and connected there. At the site of the mast so only a pit is excavated, the ground is leveled and possibly solidified. Subsequently, the foundation body is lowered into the pit. A supply cable leading to the mast is led through a cabling recess unless the supply cable is already retracted into the cabling recess and from the foundation body to a cabling recess Connection point of the supply cable laid. If already laid supply cables are found, they are introduced through the wiring recesses and connected in a preferred embodiment in the device housing located there connector panels. Connecting cables led by the housing through wiring recesses in the foundation body and emerging from the hollow mast holder are introduced into a lower part of the mast and guided to a connection field inside the mast. There they are connected to a connection panel. The mast, which preferably comprises a connection flange, is connected to the mast holder. Preferably, a mounting flange and a connecting flange are thus connected to one another, preferably by screw connections.

When setting up a connection of the mast can first be done with the mast holder and then done the connection of the connection cable to the connection panel inside the mast. However, insertion of the connection cable into the mast is preferably carried out before attaching the mast to the mast holder. Only in embodiments in which no pre-cabling in the foundation body was made prior to transport to the site, a wiring is made in some cases, only after an erection of the mast.

The foundation body is preferably arranged in the pit such that the mounting flange is located below ground level of a pit environment. This makes it possible, after connecting the connecting flange of the mast with the mounting flange to fill the pit so that the junction between the Halterungsflansch and the flange after filling in the ground below ground level is arranged. This will cause a manipulation of the attachment of the mast at the mast mounting significantly more difficult. Furthermore, the compound in the ground is usually better protected against corrosion.

In order to facilitate handling of the foundation body during transport, the foundation body is preferably made with fasteners. This can be, for example, in the foundation body cast eyebolts.

To give the foundation body the necessary stability, this is preferably provided with a steel reinforcement. At this both the mast holder and, for example, the fasteners may be attached before concreting the foundation body.

In order to achieve a good dissipation of the forces applied by the mast to the mast holder forces in the foundation body, the mast holder is provided in a preferred embodiment with anchors. As a result, a better introduction of the forces can be achieved in the foundation body, so that it requires a smaller depth to accommodate the same acting on the mast transverse forces of the mast holder can.

Fig. 1

eine schematische Darstellung einer Funkmastaufstellung nach dem Stand der Technik;

Fig. 2

eine Schnittansicht einer ersten Ausführungsform eines Fundamentkörpers;

Fig. 3

eine schematische Draufsicht auf einen Fundamentkörper nach Fig. 2;

Fig. 4

eine schematische Schnittansicht durch einen weiteren bevorzugten Fundamentkörper;

Fig. 5

eine schematische Draufsicht auf den Fundamentkörper nach Fig. 4; und

Fig. 6

eine schematische Darstellung eines bevorzugten Fundamentkörpers mit einem hierauf befestigten Mast sowie einem Gehäuse zum Aufnehmen von Anschluss- und/oder Sende- und Empfangseinrichtungen.

The invention will be explained in more detail below with reference to preferred embodiments. Hereby show:

Fig. 1

a schematic representation of a radio tower installation according to the prior art;

Fig. 2

a sectional view of a first embodiment of a foundation body;

Fig. 3

a schematic plan view of a foundation body after Fig. 2 ;

Fig. 4

a schematic sectional view through another preferred foundation body;

Fig. 5

a schematic plan view of the foundation body after Fig. 4 ; and

Fig. 6

a schematic representation of a preferred foundation body with a mast mounted thereon and a housing for receiving connection and / or transmitting and receiving devices.

In Fig. 1 schematically an anchoring of a mast 1 in the soil 2 is shown according to the prior art. From the mast 1, only one mast base 3 with a connection flange 4 is shown. The rest of the mast 1 is not shown for reasons of simplicity. The connection flange 4 is connected via screw connections 5 to a mounting flange 6 of a mast holder 7. The mast holder 7 comprises at least one partially hollow tube 8, from which extend laterally downwards transverse tubes 9, which are also hollow and are in communication with the hollow part of the tube 8.

The tube 8 of the mast holder 7 is poured into concrete 10, which is filled in a borehole 11. The mast holder 7 and the transverse tubes 9 are adapted to a diameter of the borehole 11 so that they extend out of this into the soil 2. This ensures that a laid in the ground 2 supply cable 12, which is indicated by a dashed line through at least one of the transverse tubes 9 in the hollow part of the tube 8, ie inside the mast holder 7 and through this into the mast 1 for Connecting arranged on the mast 1 facilities (not shown) can be supplied.

The erection of a mast 1 according to the prior art, as shown schematically in FIG Fig. 1 shown, requires a variety of operations that can be performed sequentially and not in immediate succession at the site. First, the wellbore 11 is driven into the soil 2. Subsequently, the mast holder 7 is placed in the wellbore. This is done so that the cross tubes 9 so adjacent to the soil 2 or penetrate into this and filling the borehole 11 with concrete, the openings 13 of the transverse tubes 9 does not close. In order to increase stability, steel reinforcement can be placed in the borehole prior to concreting Fig. 1 not shown. Before further work can be carried out, the concrete must cure at the site. Subsequently, the soil is dug up to guide the supply cable 12 to the mast holder 7. Subsequently, the mast can be mounted on the mast holder 7 and the supply cable 12 are connected to the facilities on the mast 1.

If the mast 1 is a mast of a mobile radio network, the devices arranged on the mast 1 are generally transmitting antennas and receiving antennas. The received or transmitted signals must be processed in transmitting or receiving equipment or devices, which are usually arranged in a device housing or equipment cabinet adjacent to the mast. In the prior art, it is therefore customary to concretise a foundation (not shown) for such a housing or cabinet next to the mast holder.

Overall, the establishment of a radio mast by the method of the prior art usually takes at least four working days and requires multiple approaches usually by different vehicles to the site.

In Fig. 2 a schematic sectional view through a foundation body 14 is shown, which is ready pre-assembled transported to the site. The same technical features are provided in all figures with identical reference numerals. In the foundation body 14, preferably made of concrete, a mast holder 7 is concreted in, similar to that of Fig. 1 is. The mast holder 7 also comprises an at least partially hollow tube 8 and optionally transverse tubes 9. Adjacent to openings 13 of the transverse tubes 9 and openings in the tube 8 of the mast holder 7 wiring recesses 15 are formed, which are also referred to as cable ducts. In a preferred embodiment, the mast holder 7 is formed with a mounting flange 6, which is supported via angle 16 against the tube 8 of the mast holder 7. The mounting flange 6 includes through holes 19 (which are shown in FIG Fig. 3 shown top view of the foundation body 14 after Fig. 2 can be seen) through which screws or other connecting elements 26 can be guided in order to connect a connecting flange of a mast (not shown) with the mounting flange 6. The mounting flange 6 projects out of the concrete of the foundation body 14 for this purpose. In the illustrated embodiment, the Halterungsflansch 6 is disposed in a recess 17 of the foundation body 14, which can be filled after attachment of the mast to the mast holder 7 with soil, so that a junction of the mast with the mast holder 7 and the foundation body 14 in operation is not visible, but is below a ground level.

In order to keep a depth 29 of the foundation body 14 as low as possible and yet be able to initiate the forces acting on a mast transverse forces on the mast holder 7 in the foundation body 14, 7 anchors 18 are provided on the tube 8 of the mast holder laterally, for example curved, extend from the tube 8 of the mast holder 7 in the foundation body 14. These can come with a reinforcement be connected or engage in a reinforcement, which is made of steel mesh and is not shown here.

In Fig. 3 is a plan view of the foundation body 14 after Fig. 2 shown. The support flange 6 with the through holes 19 for receiving fastening elements, preferably screws, for fastening a connection flange of a mast to the mounting flange 6 can be seen centrally. In the illustrated embodiment, wiring recesses 15 each extend once across the foundation body 14. Thus, it can In all four directions, a supply cable to the mast to be added or removed.

Particularly advantageous cables or pulling aids are already brought into the wiring recesses 15 before the foundation body 14 is moved to the site.

In Fig. 4 a sectional view of another embodiment of a foundation body 14 is shown. This differs from the foundation body 14 FIGS. 2 and 3 mainly in that a housing foundation 20 is integrated in the foundation body 14. This housing foundation 20 protrudes from an upper side 30 of the foundation body 14. Furthermore, the wiring recesses 15 are designed such that supply cable and connecting cable can be supplied and / or removed through the housing foundation 20. The housing foundation is further formed so that an upper edge 31 of the housing base 20 is disposed above the mounting flange 6, when the foundation body is deposited at the site. Thus, after mounting the mast, the mounting flange can be placed below a ground level, that is, covered with soil, and the housing foundation 20 still protrude out of the ground.

In Fig. 5 is a plan view of the foundation body after Fig. 4 shown schematically.

In Fig. 6 Shown schematically is a foundation body 14 with a housing 21 arranged thereon for receiving transmission and / or reception and / or connection and / or distribution systems and / or devices. The housing 21, which is preferably formed as a double-walled housing, optionally with a cooling arrangement, as is known in the prior art, is already mounted on the housing foundation 20 of the foundation body 14 spaced from a site and preferably pre-wired. In particular, preferably a connection cable 22 is guided from the housing 21 through the wiring recesses 15 in the tube 8 of the mast holder 7 and cut so that it is inserted into the interior of the mast 1 at its installation and led to a connection pad 23 in the interior of the mast 1 can be. The connection panel 23 is located in the lower part of the mast 1 about 1 m in height and is accessible through an installation flap 24. The devices 25, which may be transmitting and / or receiving antennas of a mobile radio network, for example, are already attached to the mast 1 and pre-wired, that is also connected to the terminal box 23. Alternatively it can be provided that the connecting cable 22 is connected to the connection panel 23 or in other embodiments directly to the devices 25 and cut so that when erecting the mast 1 through the tube 8 of the mast holder 7 and the wiring recesses 15 in the housing 21 to be connected there.

Supply cables 12 can also be led away or supplied to and from the housing 21 through the wiring recesses 15. Alternatively, supply and / or connecting cables can also be led through the foundation recess 14 through the supply recess 15. These supply or connection cables can already vorverkabelt be transported in the foundation body 14 with the housing 21 to the site.

In order to build a mast in a very short time, provided with the housing 21 and pre-cabled foundation body 14 is transported together with the provided with the devices 25 and pre-cabled mast 1 to the site with a vehicle that includes an excavator / crane device. This will initially raise a pit at the site. Subsequently, a bottom of the pit is leveled and optionally solidified. Subsequently, the foundation body 14 is deposited in the pit. This is done, for example, so that an upper side 30 of the foundation body is up to the recess 17 in which the mast holder 7 is arranged, and is up to the housing foundation 20 at a level of Erdgleiche 28. Subsequently, supply cables 12 are supplied to the housing 21 and discharged and connected thereto. The already pre-routed connection cable 22 is inserted during erection of the mast 1 in this and guided to the connection panel 23. There, the connecting cable 22 is connected before or after connecting the connecting flange 4 to the mounting flange 6 by means preferably designed as screws connecting elements 26. A junction 27 of the mast 1 to the mast holder 7 is then covered with soil. Likewise, the rest of the pit is filled around the foundation body 14. Subsequently, the construction of the mast 1 is completed. The work to be carried out for erection of the mast 1 can be carried out continuously one after the other and with a journey to the installation site.

For this it is necessary that the foundation body and the mast are prefabricated and preferably pre-wired transported to the site. For this purpose, the foundation body is preferably manufactured in a factory by arranging a reinforcement and the mast holder, which preferably has anchors, in a casing, which then then poured with concrete. The shuttering is preferably designed so that in the foundation body wiring recesses are formed. The casing is preferably further formed so that integrally a housing foundation is formed. To this extend in a preferred embodiment, the wiring recesses. This makes it possible to attach in the factory, the housing for receiving transmitting and / or receiving equipment, distribution systems and / or the like on the housing foundation and install the said systems and vorzuverkabeln so that a connection cable from the housing through the wiring recesses in the Inside the mast support is guided and protrudes from this. Alternatively or additionally, a pulling aid or other cables can be brought forward.

During manufacture, fastening elements, for example eyelets, are preferably inserted into the foundation bodies in such a way that cranes can be attached to these cables and / or hooks in order to facilitate transporting the foundation body.

The described embodiments are merely exemplary embodiments. It will be apparent to those skilled in the art that the features described in connection with the individual embodiments may be used in any combination to practice the invention.

LIST OF REFERENCE NUMBERS

1

mast

2

soil

3

mast

4

flange

5

screw

6

mounting flange

7

pole mount

8th

pipe

9

cross tubes

10

concrete

11

well

12

power cable

13

openings

14

foundation body

15

wiring recesses

16

angle

17

deepening

18

anchor

19

Through holes

20

housing foundation

21

casing

22

connection cable

23

connection panel

24

installation flap

25

facilities

26

fasteners

27

junction

28

ground level

29

depth

30

top

31

top edge

Claims (24)

Method for setting up a mast (1), in particular a radio mast of a mobile radio network, comprising the steps: Producing a foundation body (14) with an incorporated mast holder (7); Mounting the mast (1) on the mast support (7); characterized in that the manufacture of the foundation body (14) spaced from a site of the mast (1) is performed, the foundation body (14) is transported to the site and the foundation body (14) is arranged at the site. A method according to claim 1, characterized in that at the site of the mast (1) a pit is dug and the foundation body (14) is arranged at the site in the pit. A method according to claim 1 or 2, characterized in that the foundation body (14) with wiring recesses (15) is produced, via which a connection between the mast (1) and below ground level (28) laid at the site supply cables (12) can be produced , Method according to one of the preceding claims, characterized in that the foundation body (14) is produced such that it has a housing foundation (20) for a housing (21) for receiving distribution and / or connection and / or transmission and / or or receiving facilities. A method according to claim 4, characterized in that the foundation body (14) is arranged in the pit so that a Upper edge (31) of the housing foundation (20) above a Erdgleiche (28) is arranged at the site. Method according to one of the preceding claims, characterized in that the wiring recesses (15) in the foundation body (14) are introduced so that the supply cable (12) at least one on the housing foundation (20) arranged housing (21) can be supplied and at least a connection cable (22) can be guided from the housing (21) arranged on the housing foundation (20) to the mast holder (7). Method according to one of the preceding claims, characterized in that in the production of the foundation body (14) an at least partially hollow tube (8) with a mounting flange (6) comprehensive mast holder (7) is poured into concrete, so that the mounting flange (6). protrudes from the foundation body (14). Method according to one of the preceding claims, characterized in that the mast holder (7) comprising the at least partially hollow tube (8) with the mounting flange (6) is cast into the foundation body (14) in such a way that the at least partially hollow tube (8) communicates with the wiring recesses (15). Method according to one of the preceding claims, characterized in that on the foundation body (14) spaced from the site of the mast (1), the housing (21) for receiving distribution and / or connection and / or transmitting and / or receiving equipment is fastened on the housing foundation (20). Method according to one of the preceding claims, characterized in that at least one Anschusskabel (22) and / or supply cable (12) and / or a pulling aid spaced from the site in the foundation body (14) in the wiring recesses (15) introduced and / or in this is relocated. Method according to one of claims 2 to 10, characterized in that the foundation body (14) is arranged in the pit, that the Halterungsflansch (6) below the Erdgleiche (28) of an environment of the pit is arranged. Method according to one of claims 2 to 11, characterized in that a connecting flange (4) of the mast (1) with the mounting flange (6) is connected, in particular screwed, and the pit is filled so that a connection point (27) between the Mounting flange (6) and the connection flange (4) after filling in the ground below the Erdgleiche (28) is arranged. Method according to one of the preceding claims, characterized in that the foundation body (14) is produced with fastening elements on which the foundation body (14) can be lifted and transported. Method according to one of the preceding claims, characterized in that during production of the foundation body (14) a steel reinforcement is incorporated. Method for producing a transportable foundation body (14) for a mast (1), in particular a mast (1) of a mobile radio network, comprising the steps: Producing or providing a formwork, Creating a reinforcement made of steel, Providing a mast holder (7), Providing concrete and pouring the concrete into the formwork, wherein the reinforcement and the mast support are at least partially disposed in the formwork during the casting of the concrete, resulting in a foundation body in which the reinforcement and the mast holder are fixed, and releasing the foundation body from the formwork. A method according to claim 15, characterized in that the formwork is created so that in the foundation body (14) cabling recesses (15) result, via which a connection between the mast (1) and supply cables (12) can be produced. A method according to claim 15 or 16, characterized in that the formwork is formed and the mast holder (7) is arranged so that a housing foundation (20) for a housing (21) for receiving distribution and / or connection and / or transmitting and / or receiving equipment is integrally formed, which protrudes from the side of the foundation body (14) on which the mast holder (7) is arranged. Method according to one of claims 15 to 17, characterized in that in the concrete foundation body (14) at least a portion of the wiring recesses (15) is drilled. Method according to one of claims 15 to 18, characterized in that on the housing foundation (20) a housing (21) is mounted and at least one Anschusskabel (22) is laid in the Verkablungsaussparungen (15), of the housing (21) the mast holder (7) leads and emerges from this. Foundation body (14) for a mast (1), in particular a mast (1) of a mobile radio network, which is made of concrete and comprises a mast holder (7) cast into the concrete and wiring recesses (15) for placing on the mast holder ( 7) to be mounted mast (1) to supply cable (12) to connect. Foundation body (14) according to claim 20, characterized in that the mast holder (7) comprises an at least partially hollow tube (8) with a mounting flange (6) protruding from an upper side (30) of the foundation body (14), wherein the at least partially hollow tube (8) with the wiring recesses (15) is in communication. Foundation body (14) according to claim 20 or 21, characterized in that the foundation body (14) on the upper side (30) comprises a housing foundation (20) which projects from the upper side (30) of the foundation body (14). Foundation body (14) according to one of claims 20 to 22, characterized in that on the housing foundation (20) has a housing (21) for receiving distribution and / or connection and / or transmitting and / or receiving equipment with a sealed functional space is mounted. Foundation body (14) according to one of claims 20 to 23, characterized in that the wiring recesses (15) are formed, that supply cable (12) can be supplied through the wiring recesses (15) to the housing (21) and discharged therefrom and additionally at least one connecting cable (22) from the housing (21) through the wiring recesses (15) to the mast holder (7) can be performed.

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