EP1338728A1 - Support structure - Google Patents

Abstract

An equipment cabinet (7) roof mounting (1) has a horizontal truss (2) between foot trusses (3) with support pads (13)

Description

The invention relates to a support structure for horizontal roof fastening of system units, in particular for accommodating technical cabinets and Antennas for mobile radio systems, consisting of a horizontal one Support unit, which has several support points opposite the roof is supported.

Generic supporting structures are used, for example, System technology cabinets taking into account the weight and the occurring wind loads preferably on a flat roof. A steel substructure is used for this, with which the system technology cabinets are screwed. The steel substructure usually exists from wide double-T profiles, which may and may vary depending on the provider have a fixed drilling pattern for the different cabinet types, so that a Attachment can be made by screwing. The whole Steel substructure is placed on the roof and by means of Dowels specially approved for these loads are screwed to the roof. The loads from the dead weight of the steel substructure and the System technology cabinets are placed above the ceiling in the ones below Walls initiated. The use of the dowels usually requires one defined minimum concrete quality and minimum component thicknesses to ensure a safe To allow attachment, determining the exact location of the Walls at each location are required to meet the structural requirements to meet. The system technology cabinets are designed to accommodate the Power supply and of electrical or electronic components of the Mobile radio technology is provided and, for example, with the on the Transmitting or receiving antennas located on the roof are connected by cables.

The assembly of such a steel substructure requires due to the high dead weights usually a lifting crane. Furthermore, must be ensured be that the supporting walls located under the ceiling are able to absorb occurring loads.

The object of the present invention is a supporting structure to show the easy to assemble, variable use and lower requirements to the load-bearing capacity of the ceiling.

According to the invention, the carrying unit is provided to achieve the object consists of a framework and / or framework structure, which over a foot construction is supported with contact surfaces. More beneficial Refinements result from the subclaims.

The use of a support unit consisting of a truss and / or frame-like frame represents a lightweight construction, which the increased static requirements for the loads to be absorbed. In the In addition, the use of a rod structure results in only slight deflections of the frame, which increases the stability. Beyond that in an advantageous manner, the total load in both constructions is only insignificant elevated. This makes it possible to support structures of this type Arrange flat roofs without the time-consuming checks regarding of the load-bearing walls. There is also an essential one Advantage in that it is easy to transport modules that if necessary, can also be transported through the stairwell and thus avoiding the use of expensive car cranes or the like becomes. Another particular advantage of the solution according to the invention exists in that the horizontal loads are transferred via friction values and no anchoring is necessary. Thanks to large system dimensions The supporting structure reduces the tensile forces, if necessary sink to zero, since only compressive forces arise that directly into the roof can be initiated. There is therefore usually no need derive the existing loads via load-bearing walls. Because the Support units consist of individual modules that can be screwed together, for example or can be designed to be pluggable, the assembly considerably simplified and individual modules can be of any size be assembled so that a flexible adaptation to the local Conditions and necessary system units is possible. Another The main advantage is that the framework and / or framework Frame is intrinsically rigid, which makes the support unit can also be exposed to higher wind loads without causing deformation comes.

In a further embodiment of the invention it is provided that the frame has a rectangular cross-section and from in the corner points continuous support elements, which by within the vertical, horizontal framework and / or framework structure and / or diagonal struts are reinforced. To accommodate the Loads consisting of the system technology cabinets or antennas the existing continuous support elements in the corner points through the Struts reinforced, making it an extremely stable overall construction comes that can take a large load and also one Represents lightweight construction. The framework and / or framework structure can be of modular design and in each case on the end face are connected, preferably a plug connection or optionally a screw connection is used. Furthermore, several Truss-like and / or framework-like frames by connecting modules cross or be connected in a star shape. If necessary, there is in addition, the possibility of lifting the load through additional struts increase. Likewise, the framework and / or framework-like frame in Area of the individual module connections through additional parts overlapping profiles or struts should be reinforced. Through the Training of individual framework and / or framework modules can accommodate the absorption capacity according to the respective requirements with regard to the system size of the individual technology cabinets and also the Loads are adjusted according to the intended use.

In a further embodiment of the invention it is provided that the foot construction consists of truss-like frame parts lying transversely to the supporting unit, which has end-to-end side struts, which in their Contact point for receiving support feet are provided. alternative there is a possibility that the foot construction is rectangular or square add-on element that exists with the truss and / or frame-like frame parts are connected and each have a support foot having. The foot construction according to the invention can be upper or be arranged below the support unit or lying in the same plane with connected to the end faces of the support unit, preferably pluggable or screwed. According to the loads to be borne the support unit can be provided with a plurality of support feet which are supported by the Truss and / or truss-like frames are spaced to the extent that there is a large distributed pressure load on the roof surface. The support feet are, for example, in eyelets or screw-on clamp connectors recorded in the point of contact of the tapering side struts are arranged. It is provided that the support feet are made of a round or Square tube with a round, square or polygonal, plate-shaped contact surface exist. Every single support foot is here individually adjustable in height, so that an adaptation to the existing roof pitch can take place, the connection between the Carrier unit and the support feet can be done by positive or non-positive. There is also the possibility of using the existing foot construction arrange the entire supporting structure in height adjustable.

Another particular advantage of the support structure is that it can also be used on cold roofs with wooden supports. This is a simple screw connection on the upper plank layer to transfer the load horizontal loads sufficient while the wooden elevation through attaching wood changes can be reinforced if necessary. Preferably is used for the supporting structure as steel, aluminum or possibly plastic used.

The support feet of the foot construction consist of a round tube a round, square or polygonal, plate-shaped support surface, to avoid damage to the roof surface preferably with compliant materials at least be coated on the underside can. For the system components to be included, the truss and / or frame-like frame beyond contact surfaces and / or Have fasteners that accommodate all common Enable system cabinets. The system cabinets can be fastened if necessary, this can be done by means of holding claws that hold the existing Grasp the support elements of the framework and / or framework structure and are screwed to the system cabinets. The system cabinets or System units can accommodate antennas, cooling systems or Recooling systems can be provided or take up the transmission technology.

The particular advantage of the present invention is that a Lightweight construction exists, which on the one hand does not lead to high loads on the existing roof and also quick assembly allows, with the use of lifting devices usually can be dispensed with because the individual module-like frame parts for example that stairwell or an elevator to the roof can be transported. In addition, the overall construction stands out due to increased flexibility, because if necessary, the supporting structure can be adapted to the requirements using an extension module and an exchange of different foot constructions is possible, which the Introduce occurring loads over a large area into the roof without the special Measures must be taken or taken into account.

The invention is explained in more detail below with reference to the figures.

Fig. 1

in einer perspektivischen Ansicht die erfindungsgemäße Tragkonstruktion mit Technikschränken, nach einem erfolgten Zusammenbau,

Fig. 2

die erfindungsgemäße Tragkonstruktion gemäß Figur 1 in einer Seitenansicht,

Fig. 3

die Tragkonstruktion gemäß Figur 1 in einer Draufsicht,

Fig. 4

die Tragkonstruktion gemäß Figur 1 in einer weiteren Seitenansicht,

Fig. 5

eine weitere erfindungsgemäße Tragkonstruktion mit stern- bzw. kreuzförmig angeordneten Rahmenelementen zur Aufnahme eines Sendemastes,

Fig. 6

eine erfindungsgemäße Tragkonstruktion zur Aufnahme von Systemkomponenten mit rechteckförmigen Anbauelementen für die Stützfüße und

Fig. 7

ein einzelnes Anbauelement mit Stützfuß.

It shows

Fig. 1

in a perspective view, the support structure according to the invention with technical cabinets, after assembly,

Fig. 2

the support structure according to the invention according to Figure 1 in a side view,

Fig. 3

1 in a plan view,

Fig. 4

1 in a further side view,

Fig. 5

a further supporting structure according to the invention with star or cruciform frame elements for receiving a transmission mast,

Fig. 6

a support structure according to the invention for receiving system components with rectangular add-on elements for the support feet and

Fig. 7

a single add-on element with support leg.

Figure 1 shows a perspective view of the invention Support structure 1, consisting of a framework-like frame 2 and foot constructions at the end 3. The framework-like frame 2 consists in detail of four support elements running through the corner points 4, the diagonal struts 5 and horizontal Struts 6 are interconnected. Another reinforcement could done by vertical struts. In the embodiment shown the framework 2 frame formed in one piece, but there is Possibility to assemble several frames in a modular way and thus the Increase the length of the entire supporting structure 1. Preferably it offers therefore, modules of the same overall length can be plugged together or trained to be screwable, so that from the smallest system units Support structure 1 is constructed. Are on the upper support elements 4 System cabinets 7 set up by clamp connectors or screw connectors 8 are held. The height and width of the system cabinets 7 can according to the respective requirements, while the Support structure 1 is designed so that all sizes on one Support structure 1 can be assembled. At the front ends of the frame 2 the foot construction 3 are arranged, which in the exemplary embodiment shown consist of frame-like frame parts 9. The frame parts 9 are also screwed to the frame 2 or possibly plugged connected. In the central area, the frame parts 9 are almost rectangular formed and arranged transversely to the longitudinal extent of the frame 2. To the ends of the frame parts 9 have converging side struts 10, the fastening means for the support feet 11 in their contact points exhibit. The support feet 11 consist of a round tube 12 and a almost square bearing surface 13, the round tube 12 using clamps 14 connected to the converging side struts 10 of the frame parts are. The clamps 14 allow an individual height adjustment of the individual support feet 11, so that existing bumps or roof slopes can be compensated. In a further embodiment of the invention there is a possibility that the foot construction is both below and are arranged above the framework-like frame 2 and corresponding Have connections with this.

Figure 2 shows a side view of the support structure 1 with attached System cabinets 7, which 8 with the clamp or screw connector Support structure or the carrier element 4 are connected.

Figure 3 shows a top view of the supporting structure 1 with the system cabinets 7, from which the large-scale arrangement can be seen, so that the individual Support feet 11 a large-scale introduction of the loads occurring in the Allow roof area. In the event that large wind loads are expected there is the possibility that the bearing surfaces 13 by existing Bores 15 can be screwed to the roof. The foot constructions 3 are here with the framework-like frame 2 via plug connections or if necessary connected screw connections.

Figure 4 shows a further side view of the supporting structure according to the invention 1 with its end structures 3 and the Support feet 11. From this view it is very clear that the one on top of the other tapered side struts equipped at the end with a flange plate 17 are on which the clamp 14, which engages around the round tube 12, rests and one Screwing by means of bolts 18 is possible. By loosening the Bolt 18 can the entire support structure 1 with a Displacement of the round tube 12 within the clamps 14 to the respective Roof slope or any unevenness in the roof surface without Further be adjusted so that a / safe stable storage of the entire support structure 1 on a flat roof is possible. The support feet 11 consist of a throw frame by a commercially available Concrete slab is inserted and a plate designed as a support surface 13 which is articulated to the round tube 12. The special advantage of Invention lies in the fact that it is a modular construction, which also characterized by a light, filigree construction, so that there are no unnecessary additional loads and essentially only that Load of the system cabinets 7 needs to be taken into account.

FIG. 5 shows a supporting structure 20, 21 in three partial views Recording a transmission device 22, 23. Compared to the previously shown The supporting structure 20, 21 according to the invention is made of constructions Truss or frame structure 2 built, the individual Frame 2 through a connecting module 24, 25 in a cross or star shape are interconnected. The connection modules 24, 25 are in their Dimensions adapted to the frame 2 and each have an end face to which the frame 2 can be flanged. Compared to the previous versions is a base construction for supporting the frame 2 26 used, which consists of a square extension element 27 with a single downward-facing tubular element 28 with base plate 29 as Foot construction 26 are equipped.

FIG. 6 shows a perspective view of a supporting structure 30 that consists of several flanged frame 2 and add-on elements 27 with Foot structures 26 there. A system unit is on the supporting structure 30 31 fastened by means of clamps 32. To reach the system unit 31 is further flanged a staircase 33 laterally.

FIG. 7 shows the foot construction 26 used in FIGS. 5 and 6 Detail, in the left-hand figure a height-adjustable foot without lifting forces and in the right-hand figure a height-adjustable foot for lifting forces. In both cases, the foot construction 26 consists of a square add-on element 27, a tubular base 34, a union basket 35 and a base plate 36. The tube base 34 is immediate in both cases connected to a head plate 37, and sits on a counterpart, which is connected to the base plate 36. Between the rough foot 34 and the Counterpart spacer rings 38 are used, so that a height compensation is possible and the tubular base 34 at different intervals on the lower Counterpart sits on. In the left half of the figure there is also a threaded rod 39 used, the screwing of the lower foot plate 36 with the upper head plate 37 via the threaded rod 39 by means of nuts or Account nuts 40 allows. This solution is considered in the case drawn that lifting forces can occur in the foot area. Should this be not the case can be on the threaded rod according to the left half of the figure to be dispensed with. The entire foot structure 26 can be further large-area load transmission can be set up on a concrete slab 41.

LIST OF REFERENCE NUMBERS

1

supporting structure

2

frame

3

foot construction

4

support element

5

brace

6

brace

7

system cabinet

8th

Clamp or screw connector

9

frame part

10

side strut

11

Support foot

12

round tube

13

bearing surface

14

clamp

15

drilling

17

flange

18

bolts

20

supporting structure

21

supporting structure

22

transmitting device

23

transmitting device

24

connecting module

25

connecting module

26

foot construction

27

Add-on unit

28

tube element

29

baseplate

30

supporting structure

31

system unit

32

clamp

33

stairway

34

tube foot

35

Throw basket

36

footplate

37

headstock

38

spacer

39

threaded rod

40

mother

41

concrete slab

Claims (12)

Support structure (1, 20, 21) for the horizontal roof fastening of system units, in particular for accommodating technical cabinets and antennas for mobile radio systems, consisting of a horizontally running support unit, which is supported against the roof by several support points,
characterized in that the supporting unit consists of a framework and / or framework-like frame (2) which is supported by a foot construction (3, 26) with bearing surfaces (13). Support structure according to claim 1,
characterized in that the framework and / or framework-like frame (2) is inherently rigid. Support structure according to claim 1 or 2,
characterized in that the frame has a rectangular cross-section and consists of support elements (4) which run through in the corner points and which are provided by vertical, horizontal and / or diagonal struts (5, 6) lying within the framework and / or framework-like frame (2) ) are reinforced. Support structure according to claim 1, 2 or 3,
characterized in that a plurality of framework and / or framework structures (2) designed as modules are connected to one another at the end face, preferably pluggable or screwed, or that a plurality of framework and / or framework structures (2) are cross-shaped or star-shaped by connecting modules (24) are interconnected. Support structure according to claim 1, 2, 3 or 4,
characterized in that the foot construction (3, 26) consists of truss and / or frame-like frame parts (9) lying transversely to the supporting unit and having side struts (10) which converge towards one another and which are provided in their point of contact for receiving support feet (11) are. Support structure according to one or more of claims 1, 2, 3 or 4,
characterized in that the foot construction (3, 26) consists of a rectangular or square add-on element (27) which is connected to the framework and / or frame-like frame parts (9) and each has a support foot. Support structure according to one or more of claims 1 to 6,
characterized in that the foot construction (3, 26) is arranged above or below the support unit or that the foot construction (3, 26) is connected, preferably pluggable or screwed, to the end faces of the support unit lying in the same plane. Support structure according to one or more of claims 1 to 7,
characterized in that the support unit (3, 26) has a plurality of support feet (11) which are spaced apart from the framework and / or framework-like frame (2) to such an extent that a large-area pressure load on the roof surface occurs. Support structure according to one or more of claims 1 to 8,
characterized in that the support feet (11) consist of a round (12) or square tube with a round, square or polygonal, plate-shaped support surface (13), which is articulated to the round tube, for example. Support structure according to one or more of claims 1 to 9,
characterized in that the support feet (11) are designed to be height-adjustable and are connected to the support unit by positive or non-positive connection. Support structure according to one or more of claims 1 to 10,
characterized in that the bearing surfaces (13) of the support feet (11) are preferably coated with resilient materials and / or rest on a base formed from a coupling frame with an inserted concrete slab. Support structure according to one or more of claims 1 to 11,
characterized in that the framework-like frame (2) has contact surfaces and / or fastening means for the system units (7, 31) to be accommodated.

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