EP4077838B1 - Weather protection roof - Google Patents

Description

The present application claims priority from German patent application No. 10 2019 219 921.6, filed on 17 December 2019 .

Field of the invention

The present invention relates to a weather protection roof, a method for constructing such a weather protection roof and the use of a ridge rail element in such a weather protection roof.

Background of the invention

Weather protection roofs are generally known in the state of the art. For example, the publication WO 2014/167015 A1 such a weather protection roof. Weather protection roofs are used, for example, in new buildings or during renovation work as a temporary roof construction to prevent precipitation or sunlight from penetrating an existing building or construction site, for example when a roof of the building has been removed or is being renovated. Such weather protection roofs are usually made of Scaffolding units are constructed from so-called trusses, which in turn can be constructed or assembled from a variety of scaffolding elements, such as uprights, diagonals, tubes, bars, etc. The connected scaffolding units form a kind of roof truss, which serves to hold a protective tarpaulin that functions as a roof covering. To hold the protective tarpaulin, rail elements are usually provided on the weather protection roofs, whereby these are usually designed as piping holders or piping connections in order to pull the protective tarpaulin from one end of the weather protection roof over the ridge area to the opposite end of the weather protection roof.

DE8230404 U1 reveals a weather protection roof.

When installing such weather protection roofs, the usual procedure is to pre-assemble the individual scaffolding elements on the ground to form scaffolding units, the trusses, in a horizontal position. The scaffolding units are connected to one another at one of their front sides in a rotatable manner and are lifted in this area using a crane so that the scaffolding units form a ridge area with a desired roof pitch. Further assembly work is then carried out in this raised position. The roof pitch is usually around 15°. Although the scaffolding units themselves are usually only between 0.7 and 1.5 m high, the ridge area can therefore be several meters high due to the roof pitch that has to be provided. The subsequent assembly work, such as the installation of a ridge rail element provided in the ridge area, for example a ridge piping rail, may therefore only be carried out with so-called personal protective equipment for safety reasons.

It has now become apparent that there is a further need to provide an improved weather protection roof, in particular there is a further need to provide a weather protection roof that is easier to install.

Against this background, it is an object of the present invention to provide an improved weather protection roof, in particular it is an object of the present invention to provide a weather protection roof that is easier to install. These and other objects that will be mentioned when reading the following description or can be recognized by the person skilled in the art are solved by the subject matter of the independent claims. The dependent claims develop the central idea of the present invention in a particularly advantageous manner.

Summary of the invention

The invention relates to a weather protection roof according to claim 1.

In other words, the present invention proposes equipping a weather protection roof according to the invention with a ridge rail element that can already be connected to the scaffolding units in a pre-assembly position of the weather protection roof. As explained above, this pre-assembly position of the weather protection roof is usually a position lying on the ground in which the scaffolding units have not yet been lifted by means of a crane, so that the ridge rail element can be pre-assembled at a height of between 0.7 and 1.5 m and not at the later ridge area, which is formed at a height of several meters. By pre-assembling the ridge rail element in this way, its assembly can be made considerably easier overall, since the arrangement of the ridge rail element on the two scaffolding units is comparatively complicated and usually has to be carried out by two people. This pre-assembly can now take place more or less at ground level, where the use of personal protective equipment is basically no longer necessary. The final fixing of the ridge rail element in its final position takes place again at a height of several meters, but this fixing represents a comparatively simple assembly process that can basically also be carried out by just one person. The present invention therefore makes it possible to construct a weather protection roof much safer and faster. The term weather protection roof is to be understood broadly and includes all constructions that can be used as a temporary roof construction or as a covering device. The term In this case, a scaffolding unit is to be understood broadly and includes any scaffolding unit constructed or assembled from scaffolding elements such as uprights, diagonals, bars, etc. that can be used to form a roof element. Such scaffolding units are also known to those skilled in the art under the term truss. In this case, a pre-assembly position is preferably understood to mean a positioning of the scaffolding units lying on the ground. However, pre-assembly can also take place in a non-lying or not completely lying position of the scaffolding units. In this case, a flexible surface element is to be understood to mean any element that provides even partial shielding of the area below the weather protection roof from external environmental influences. This also includes elements that include recesses, transparent areas, open areas or the like. In addition, the term ridge rail element is also to be understood broadly and includes all elements that allow the flexible surface element to be arranged in the ridge area of the weather protection roof. Finally, the term fastening means is to be understood broadly here and includes all fastening means/types provided on the scaffolding units and/or on the ridge rail element that allow the ridge rail element to be arranged in the pre-assembly position of the weather protection roof and then moved to the final assembly position. The ridge rail element does not necessarily have to be securely connected to the scaffolding units in a pre-assembly position using the fastening means, even if this option is preferred. Rather, using appropriate guide means or holding means, it is also possible to arrange the fastening means only on the scaffolding units and/or the ridge rail element in the pre-assembly position and only fix them in the final assembly position. It is also possible for the ridge rail element to be at least partially elastic or elastic in some areas.

Preferably, at least the first fastening means and/or the second fastening means are provided on the ridge rail element. At least one of the fastening means is provided by a slotted screw connection.

A slotted screw connection provides a particularly simple way of arranging the ridge rail element on the scaffolding units or, if necessary, even loosely pre-assembling it by guiding the screw through the slotted hole opening and not yet fixing it. This also allows a relative movement of the ridge rail element while the scaffolding units are being moved into the final assembly position, in which the ridge rail element can be fixed by tightening the screw connection(s). In this context, it can also be advantageous for the first fastening means and/or the second fastening means to comprise at least one locking means or to be formed by such a locking means. For example, the locking means can be designed and arranged in such a way that it automatically locks into the final position of the ridge rail element.

Advantageously, the ridge rail element and/or the scaffolding units comprise at least one guide means which is designed to hold the ridge rail element in a predetermined position relative to the scaffolding units when the weather protection roof is brought from the pre-assembly position to the final assembly position. In this context, it is particularly preferred that the guide means comprise at least two leg elements which are in operative engagement with correspondingly designed surfaces of the scaffolding units and/or the ridge rail element when the weather protection roof is brought from the pre-assembly position to the final assembly position. The leg elements can, for example, be placed on or placed on a pipe section of a scaffolding unit so that the ridge rail element is held in position while the scaffolding units are being moved from the pre-assembly position to the final assembly position. When using such a guide means, it is also possible that the ridge rail element is not already fastened or pre-assembled by the fastening means in the pre-assembly position, but that the fastening means are only fixed in place in the final assembly position.

Alternatively or additionally, the guide means can also comprise a projection which is in operative engagement with a correspondingly designed surface or a correspondingly designed receptacle of the scaffolding units and/or the ridge rail element when the weather protection roof is brought from the pre-assembly position into the final assembly position. Furthermore, in a further alternative or additional embodiment, the guide means can comprise at least one loop element which is in operative engagement with a correspondingly designed holding element of the scaffolding units and/or the ridge rail element when the weather protection roof is brought from the pre-assembly position into the final assembly position.

Advantageously, the scaffolding units each comprise a rail element on their opposite long sides for receiving the flexible surface element, between which a ridge rail element is arranged in such a way that the rail elements of the scaffolding units and the ridge rail elements each form a continuous receptacle for the flexible surface element on their long sides. In this preferred embodiment, the scaffolding units can thus be completely covered by a flexible surface element.

Furthermore, it is preferred that the rail elements of the scaffolding units and the ridge rail element are designed as keder rails and the flexible surface element as keder tarpaulin.

In a preferred embodiment, the ridge rail element comprises an arcuate region and a linear region adjoining the arcuate region, wherein the first fastening means and the second fastening means are provided at the lateral end of the linear regions, preferably in the form of a slotted screw connection, wherein the slotted screw connections are preferably provided on a guide means in the form of two opposing leg elements.

Furthermore, the present invention relates to a method according to claim

Furthermore, it is preferred that the method comprises the step of: fixing the ridge rail element with a first fastening means to the first Scaffolding unit and with the second fastening means on the second scaffolding unit. Furthermore, it is preferred that the method further comprises the step of: introducing a flexible surface element into the continuous receptacle formed by the rail elements of the scaffolding units and the ridge rail element.

Finally, the present invention relates to a use of a weather protection roof according to claim 14.

Figur 1

eine schematische Ansicht einer bevorzugten Ausführungsform eines erfindungsgemäßen Wetterschutzdachs in einer Vormontageposition;

Figur 2

eine schematische Ansicht eines Firstschienenelements;

Figur 3

eine schematische Ansicht eines Teils eines erfindungsgemäßen Wetterschutzdachs in einer Endmontageposition; und

Figur 4

eine schematische Ansicht eines erfindungsgemäßen Wetterschutzdachs im fertig montierten Zustand.

Further features, advantages and possible applications of the present invention will become apparent from the following description, the exemplary embodiment and the figures. In them:

Figure 1

a schematic view of a preferred embodiment of a weather protection roof according to the invention in a pre-assembly position;

Figure 2

a schematic view of a ridge rail element;

Figure 3

a schematic view of a part of a weather protection roof according to the invention in a final assembly position; and

Figure 4

a schematic view of a weather protection roof according to the invention in the fully assembled state.

Figure 1 shows a schematic view of a preferred embodiment of a weather protection roof 10 according to the invention in a lying pre-assembly position. The weather protection roof 10 comprises a first scaffolding unit 11 and a second scaffolding unit 12, which are also referred to as so-called trusses. As in Figure 1 As can be clearly seen, the scaffolding units 11, 12 are constructed or assembled from different scaffolding elements, such as uprights, diagonals, tubes, bars, etc., whereby with regard to the general structure, additional reference is made to the WO 2014/167015 A1 As in Figure 1 As can also be clearly seen, the scaffolding units 11, 12 are connected to one another at one of their front sides in a rotatable manner in order to be able to be positioned there in a final assembly position (cf. Figure 4 ) to form a ridge area 13.

The scaffolding units 11, 12 also comprise opposing rail elements 14, for example designed as piping receptacles, which serve to accommodate a flexible surface element (not shown), for example a piping tarpaulin. In Figure 1 In the state shown, no ridge rail element 20 (cf. Figure 2 ). Such a ridge rail element 20 serves together with the rail elements 14 of the scaffolding units 11, 12 to provide a continuous receptacle for the flexible surface element. For example, the flexible surface element can be pushed from one side of a scaffolding unit 11, 12 into the opposing rail elements 14 and pulled over the ridge area 14 or over the ridge rail element 20 to the opposite end of the other scaffolding unit 11, 12 and fixed there.

Figure 2 shows a schematic view of a preferred ridge rail element 20 which is attached to the ridge area 13 in the Figure 1 shown pre-assembly position of the weather protection roof 10 can be arranged in order to together with the rail elements 14 of the scaffolding units 11, 12 to provide a continuous receptacle for the flexible surface element. The ridge rail element 20 comprises an arcuate region 21, to which a linear region 22, 23 is connected on the opposite side. The ridge rail element 20 can be designed in such a way that it can at least partially deform elastically. On opposite sides, the ridge rail element 20 also comprises a fastening means, here in the form of a slotted screw connection 24. As in Figure 2 As can be clearly seen, the ridge rail element 20 comprises a receptacle 25, for example again in the form of a piping receptacle 25, which is designed to correspond to the rail elements 14 of the scaffolding units 11, 12. The elongated hole screw connections 24 are each provided on a leg element, which also serve as a guide means to hold the ridge rail element 20 in a predetermined position relative to the scaffolding units 11, 12 when the weather protection roof 20 is brought from the pre-assembly position to the final assembly position. The leg elements can, for example, be arranged or placed on the pipe sections of the scaffolding units 11, 12 provided in the ridge area 13, so that the ridge rail element 20 is held in position while the scaffolding units 11, 12 are moved from the pre-assembly position to the final assembly position. When using such a guide means, it is also possible that the ridge rail element 20 is not already fastened or pre-assembled by the fastening means 24 in the pre-assembly position, but the fastening means 24 are only fixed in the final assembly position. In order to remove the weather protection roof 20 from its Figure 1 In order to move the scaffolding units 11, 12, which are connected to one another at their front ends in a rotatable manner, from the pre-assembly position shown in FIG. 1 to a final assembly position, they are lifted by means of a crane (see reference number 15 in Figure 1 ), so that the scaffold units 11, 12 in Figure 4 shown ridge area 13 with the desired roof pitch. Further assembly work can then be carried out in this raised position.

Figure 3 shows a schematic view of a part of a weather protection roof 20 according to the invention in a final assembly position. As in Figure 3 As can be clearly seen, the rail elements 14 of the scaffolding units 11, 12 and the holder 25 of the ridge rail element 20 can provide a continuous holder for the flexible surface element.

However, the present invention is not limited to the above preferred embodiments as long as it is covered by the subject matter of the following claims. In particular, the present invention is not limited to a specific form and/or to a specific field of application of a weather protection roof.

List of reference symbols

10

Weather protection roof

11

first scaffolding unit

12

second scaffolding unit

13

Ridge area

14

Rail element

15

Crane connection

20

Ridge rail element

21

arched area

22

straight/linear area

23

straight/linear area

24

Long hole screw connection

25

Holder for flexible surface element

Claims (14)

1. Weather protection roof (10), comprising:

   at least one first scaffolding unit (11) forming a first roof element, wherein the first scaffolding unit (11) comprises at least one first rail element (14) for reception of a flexible panel element;

   at least one second scaffolding unit (12) forming a second roof element, wherein the second scaffolding unit (12) comprises at least one second rail element (14) for reception of the flexible surface element; wherein

   both scaffolding units (11, 12) are connected to one another at one of their end faces and form a ridge area (13);

   at least one ridge rail element (20) for receiving the flexible surface element, wherein the ridge rail element (20) is arranged on the ridge region (13) and is connected to the first scaffolding unit (11) by a first mounting means (24) and to the second scaffolding unit (12) by a second mounting means (24) in such a way that the rail elements (14) of the scaffolding units (11, 12) and the ridge rail element (20) form a continuous reception for the flexible surface element;

   characterized in that

   the mounting means (24) are designed such that the ridge rail element (20) can be arranged on the scaffolding units (11, 12) in a pre-assembly position of the weather protection roof (10) and the weather protection roof (10) can be brought from this pre-assembly position into a final assembly position in which the ridge rail element (20) can be fixed in a final position by the mounting means, wherein

   the first mounting means (24) and/or the second mounting means (24) comprises a slotted hole screw connection (24).
2. Weather protection roof (10) according to claim 1, wherein at least the first mounting means (24) and/or the second mounting means (24) is provided on the ridge rail element (20).
3. Weather protection roof (10) according to claim 1 or 2, wherein the first mounting means (24) and/or the second mounting means (24) comprises at least one latching means which, in the end position of the ridge rail element (20), provides a latching connection of the ridge rail element (20) to the first scaffolding unit (11) and/or the second scaffolding unit (12).
4. Weather protection roof (10) according to any one of the preceding claims, wherein the ridge rail element (20) and/or the scaffolding units (11, 12) comprises at least one guide means configured to hold the ridge rail element (20) in an intended positioning relative to the scaffolding units (11, 12) when the weather protection roof (10) is brought from the pre-assembly position to the final assembly position.
5. Weather protection roof (10) according to claim 4, wherein the guide means comprises at least two leg elements which are in operative engagement with correspondingly designed surfaces of the scaffolding units (11, 12) and/or the ridge rail element (20) when the weather protection roof (10) is brought from the pre-assembly position into the final assembly position.
6. Weather protection roof (10) according to claim 4 or claim 5, wherein the guide means comprises at least one projection which is in operative engagement with a correspondingly designed surface or a correspondingly designed reception of the scaffolding units (11, 12) and/or of the ridge rail element (20) when the weather protection roof (10) is brought from the pre-assembly position into the final assembly position.
7. Weather protection roof (10) according to any one of claims 4 to 6, wherein the guide means comprises at least one loop element which is in operative engagement with a correspondingly designed retaining element of the scaffolding units (11, 12) and/or of the ridge rail element (20) when the weather protection roof (10) is brought from the pre-assembly position into the final assembly position.
8. Weather protection roof (10) according to any one of the preceding claims, wherein the scaffolding units (11, 12) each comprise a rail element on their opposite longitudinal sides for receiving the flexible surface element, between which a ridge rail element (20) is arranged in each case in such a way that the rail elements (14) of the scaffolding units (11, 12) and the ridge rail elements (20) each form a continuous reception for the flexible surface element on their longitudinal sides.
9. Weather protection roof (10) according to any one of the preceding claims, wherein the rail elements (14) of the scaffolding units (11, 12) and the ridge rail element (20) are designed as keder rails and the flexible surface element is designed as a keder tarpaulin.
10. Weather protection roof (10) according to any one of the preceding claims, wherein the ridge rail element (20) comprises an arcuate region (21) and a respective linear region (22, 23) adjoining the arcuate region (21) and the first mounting means (24) and the second mounting means (24) are each provided at the lateral end of the linear regions (22, 23) in the form of a slotted hole screw connection, wherein the slotted hole screw connections are each provided on a guide means in the form of two opposing leg elements.
11. Method for assembling a weather protection roof (10) according to any one of claims 1 to 10, wherein the method comprises at least the steps of:

    Providing a first scaffolding unit (11) forming a first roof element, wherein the first scaffolding unit (11) comprises at least a first rail element (14) for reception of a flexible panel element;

    providing a second scaffolding unit (12) forming a second roof element, wherein the second scaffolding unit (12) comprises at least a second rail element (14) for reception of the flexible surface element;

    connecting both scaffolding units (11, 12) at one of their end faces in a pre-assembly position of the weather protection roof (10);

    arranging a ridge rail element (20) for the reception of the flexible surface element with a first mounting means (24) on the first scaffolding unit (11) and with a second mounting means (24) on the second scaffolding unit (12), wherein

    the first mounting means (24) and/or the second mounting means (24) comprises a slotted-hole screw connection (24) and, in the pre-assembly position, a screw is guided through the slotted-hole opening and is not yet fixed;

    moving the weather protection roof (20) into a final assembly position so that a ridge area (13) is formed in the end face area of the scaffolding units (11, 12) and the rail elements (14) of the scaffolding units (11, 12) and the ridge rail element (20) form a continuous reception for the flexible panel element.
12. Method according to claim 11 wherein the method further comprises the step of:
    Fixing the ridge rail element (20) with the first mounting means (24) to the first scaffolding unit (11) and with the second mounting means (24) to the second scaffolding unit (12).
13. Method according to any one of claims 10 or claim 11, wherein the method further comprises the step of:
    Inserting a flexible panel element into the continuous reception formed by the rail elements (14) of the scaffolding units (11, 12) and the ridge rail element (20).
14. Use of a weather protection roof (10) according to any one of claims 1 to 10.

Images