EP2672032A1 - Universal storm clip - Google Patents

Abstract

The clip has a connector comprising bend-resilient spring legs (1, 2) that comprise hook ends (3), where one of the spring legs downwardly points into a side fold (13) of roofing tiles (12, 12', 12'') by the hook ends. The other spring leg is attached at a side of a roof batten (11) by the hook ends, where a spring force of the spring legs is adjustable by an adjusting element (10) i.e. wire ring, affecting at the spring legs. An effective length of the spring legs or an angle between the spring legs is adjustable by the adjusting element.

Description

The invention relates to a storm clip for mounting roof slats of a roof resting roofing slabs on the roof battens, having a two spring legs having connecting element, wherein the two spring legs have hook ends, with which a spring leg in the Seitenfalz a roofing plate and the other spring legs on the down facing side of the batten can be clamped.

The GB 2 101 172 A describes a storm clip, which consists of a one-piece steel wire section. Protruding from an eyelet of the steel wire approximately at a 90 degree angle to each other from two spring legs whose ends are bent hook-shaped, wherein the two Hakenendabschnitte protrude into mutually different spatial directions.

The DE 602 22 830 T2 describes a similar storm clip, but also with several eyelets. The free ends of the spring legs should be curved in mutually different spatial directions.

The DE 103 14 108 B3 describes a storm clip in which a spring leg of a piece of wire and the second spring leg is formed by a metal strip which is displaceable along the spring leg.

The DE 203 00 295 U1 describes a storm hook, in which sections of the two spring legs parallel to each other.

The invention has for its object to provide a nutzsvorteilhaft improved storm clip.

The object is achieved by the invention specified in the claims. The storm clip according to the invention is used for fastening roof slats of a roof resting roofing tiles on the roof battens. For this purpose, the storm clip has a connecting element, which forms two spring legs. The two spring legs are connected. The free ends of the spring legs form hook ends. A hook end engages in a Seitenfalz a particular a Kopffalz an underlying roofing plate covering roofing plate. The other spring leg engages under the roof batten on which the lower roofing plate is supported. The hook end is supported on the downwardly facing side of the roof batten. The two spring legs are preferably made of a flexurally elastic material, so that when they are bent apart, they apply a holding force with which the uppermost roofing plate is pulled against the roof batten, whereby it acts on the underlying roofing plate. According to the invention, a separate adjusting element is provided with which the spring force, which develop the two spring legs which are bent apart into a specific clamping position, can be adjusted. For this purpose, the effective length of the spring legs can be adjusted by means of the adjusting element. Alternatively or in combination, the angle of the two spring legs can also be influenced with the aid of the adjusting element. As a result, the storm clip and in particular the connecting element can be adapted to different thick roof tiles or battens elements or vary the clamping force. The adjustment preferably does not attack on the roof batten or the roof tile, but only affects the spring force of the spring legs in the mounted state. In a further development of the invention, it is provided that the connecting element has an adjustment range, in which a wire bow, which forms the connecting element, is substantially formed into a V or a U. For this purpose, the spring legs are connected to each other in a curved connection area. Alternatively to the one-piece design but also spring steel wire sections in the connecting portion by means of a suitable connecting means, such as a screw, be connected to each other. In a preferred embodiment, the spring legs have holding devices, for example in the form of holding pens. The holding devices are located in the adjustment range of the spring legs and are formed by a wave-shaped bent portion of the spring leg. There are wave troughs and wave peaks so opposite that holding bays facing away from each other openings facing each other. In the area of two opposing retaining bays, the spring legs can be tied together by means of the adjusting element. In a preferred embodiment, the adjustment range, in which the wire forming the connecting element is wave-shaped, has a plurality of holding bays which have different distances from the hook ends. By means of the adjusting element, the spring legs can be tied together in different spacing position to the hook ends, so that the effective length of the spring legs is adjustable. The adjusting element may be a ring, for example a piece of wire bent into a ring. With this ring, the spring legs are tied together in the area of opposite holding bays. However, the wire forming the holding element can also be wound several times in such a way that setting steps which are at different distances from one another are formed, each of which is formed by turns of the wire. Depending on which setting level is in the apex area of the holding bay, the spring legs have different angular positions to each other. If several Einstellbuchten present, it can be varied with such a trained adjustment not only the effective length, but also the angle of the spring legs. In a further variant of the invention, the adjusting element has a fastening opening with which it can be fastened to one of the two spring legs. It has several adjustment stages, which have a different distance from the mounting hole. The adjusting element may be a sheet metal strip with hook openings. The hook openings can protrude into a window closed all around. But the hook openings can also from opposite the plane of the metal strip in opposite directions be formed bent tongues. The metal strip may also be formed into a U-bracket. He may have oppositely oriented hook openings, each forming Einstellstufen. It is also possible to use two metal strips lying parallel to one another, the hook openings also pointing in opposite directions. The angle adjustment or the length adjustment takes place by displacing or displacing the adjusting element along the spring legs. If the setting element is designed as a ring with two or more adjustment stages, adjustment is effected by displacing the adjustment element along the spring legs from one holding bay to another holding bay, wherein the spring legs in particular have to be bent by one in the apex region of the adjustment area. The spring legs are made of spring steel wire, which is why it is a restoring, elastic bending. If metal strips are used as setting elements, then the hook openings form rack structures. If the adjustment stages are formed by mutually facing hook openings, then the hook webs are formed so that they overlap in the operating state. In order to adjust the spring force, ie offset the adjustment, the adjustment must be rotated. For example, the openings between the hook bars and their angles are designed so that the adjustment element must be rotated 45 degrees about the longitudinal axis. But it is also possible to form two overlapping spring tongues so that the adjustment must be rotated by 90 degrees about its longitudinal axis. Two mutually parallel sheet metal strips of the adjusting element can be associated with each other like scissors. In each case, a joint is firmly tied to a spring leg. The engagement of the other spring leg in two mutually directed hook openings is done by squeezing the two legs of the adjustment. The metal strips that form the adjusting element can be designed angular and connected to each other with a U-web. A development of the invention relates to a storm clip, which is particularly suitable for Hohlpfannenziegel. The just below the on the batten too fixing pan is held by the pan to be fixed, because the foot of the pan to be fastened rests on the head of the already resting on the batten pan. In hollow ladle tiles, the left below the pan to be fixed is not overlapped. For this purpose, a supplementary leg is proposed according to the invention, which is a wire hanger or a metal strip. The supplementary leg is placed over the Kopffalz the lower left pan and clamped with the batten cross-engages spring leg or held there resiliently.

Fig. 1

ein erstes Ausführungsbeispiel der Erfindung, bei dem die beiden Federschenkel 1, 2 von einem als Drahtring ausgebildeten Einstellelement 10 in einer ersten Betriebsstellung aneinander gefesselt sind,

Fig. 1a

das in der Figur 2 dargestellte Ausführungsbeispiel, wobei die beiden Federschenkel 1, 2 in einer zweiten Stellung vom Einstellelement 10 aneinander gefesselt sind,

Fig. 2

die beiden Bestandteile des in den Figuren 1 und 1a dargestellten Sturmhakens,

Fig. 3

perspektivisch, schematisch ein Anwendungsbeispiel der in den Figuren 1 bis 2 dargestellten Sturmklammer,

Fig. 4

zwei einstückig miteinander verbundene Federschenkel 1, 2 eines zweiten Ausführungsbeispiels in der Draufsicht,

Fig. 5

das Hakenende 3 in einer Seitenansicht,

Fig. 6

das als Drahtring ausgebildete Einstellelement 10 zur Verwendung mit dem in der Figur 4 dargestellten Verbindungselement,

Fig. 7

ein Verbindungselement eines dritten Ausführungsbeispiels,

Fig. 8

das Einstellelement des dritten Ausführungsbeispiels in einer Draufsicht,

Fig. 9

das Einstellelement gemäß Figur 8 in einer Seitenansicht,

Fig. 10

ein viertes Ausführungsbeispiel eines Einstellelementes,

Fig. 11

ein fünftes Ausführungsbeispiel eines Einstellelementes,

Fig. 12

ein sechstes Ausführungsbeispiel eines Einstellelementes,

Fig. 13

das die Federschenkel 1, 2 ausbildende Verbindungselement eines siebten Ausführungsbeispiel,

Fig. 14

das Einstellelement des siebten Ausführungsbeispiels,

Fig. 15

das in der Figur 13 dargestellte Verbindungselement in einer ersten Winkelstellung der beiden Federschenkel 1, 2,

Fig. 16

eine Darstellung gemäß Figur 15 in einer variierten Winkelstellung der beiden Federschenkel 1, 2,

Fig. 17

ein achtes Ausführungsbeispiel, bei dem die Einstellstufen 14 bis 17 des Einstellelementes von Hakenöffnungen ausgebildet sind, die in ein Fenster 19 hineinragen,

Fig. 18

das als Blechstreifen ausgebildete Einstellelement 10 eines neunten Ausführungsbeispiel,

Fig. 19

den Schnitt gemäß der Linie XIX-XIX in Figur 18,

Fig. 20

das Einstellelement 10 eines zehnten Ausführungsbeispiels, welches aus einem zu einer U-Form gebogenen Blechstreifen besteht,

Fig. 21

ein elftes Ausführungsbeispiel, bei dem das Einstellelement 10 von zwei separaten Blechstreifen gebildet ist,

Fig. 22

ein zwölftes Ausführungsbeispiel der Erfindung, bei dem das Einstellelement 10 von einem zu einem U gebogenen Blechstreifen ausgebildet ist, welches eine Winkelform aufweist, wobei zwei aufeinander zu weisende Winkelschenkel aufeinander zu weisende Hakenöffnungen besitzen,

Fig. 23

ein dreizehntes Ausführungsbeispiel, bei dem zur Halterung von einem Hohlpfannenziegel ein Ergänzungsschenkel 24 vorgesehen ist,

Fig. 24

ein vierzehntes Ausführungsbeispiel, bei dem der Ergänzungsschenkel von einem Hakenöffnungen aufweisenden Blechstreifen ausgebildet ist,

Fig. 25

ein fünfzehntes Ausführungsbeispiel der Erfindung, bei dem der Ergänzungsschenkel 24 von einem Drahtbügel ausgebildet ist und von einer Feder 27 beaufschlagt wird.

Embodiments of the invention are explained below with reference to accompanying drawings. Show it:

Fig. 1

A first embodiment of the invention, in which the two spring legs 1, 2 are tied together by a trained as a wire ring adjustment member 10 in a first operating position,

Fig. 1a

that in the FIG. 2 illustrated embodiment, wherein the two spring legs 1, 2 are tied together in a second position by the adjusting element 10,

Fig. 2

the two components of the in the FIGS. 1 and 1a illustrated storm hook,

Fig. 3

perspective, schematically an example of application in the FIGS. 1 to 2 illustrated storm clip,

Fig. 4

two integrally connected spring legs 1, 2 of a second embodiment in plan view,

Fig. 5

the hook end 3 in a side view,

Fig. 6

the formed as a wire ring adjustment member 10 for use with in the FIG. 4 illustrated connecting element,

Fig. 7

a connecting element of a third embodiment,

Fig. 8

the adjusting element of the third embodiment in a plan view,

Fig. 9

the adjustment according to FIG. 8 in a side view,

Fig. 10

A fourth embodiment of an adjustment,

Fig. 11

A fifth embodiment of a setting element,

Fig. 12

A sixth embodiment of an adjustment,

Fig. 13

the spring legs 1, 2 forming connecting element of a seventh embodiment,

Fig. 14

the adjusting element of the seventh embodiment,

Fig. 15

that in the FIG. 13 illustrated connecting element in a first angular position of the two spring legs 1, 2,

Fig. 16

a representation according to FIG. 15 in a varied angular position of the two spring legs 1, 2,

Fig. 17

an eighth embodiment, in which the setting stages 14 to 17 of the adjusting element are formed by hook openings which project into a window 19,

Fig. 18

the adjusting element 10 formed as a sheet metal strip of a ninth embodiment,

Fig. 19

the section according to the line XIX-XIX in FIG. 18 .

Fig. 20

the adjusting element 10 of a tenth embodiment, which consists of a bent to a U-shape metal strip,

Fig. 21

an eleventh embodiment in which the adjusting element 10 is formed by two separate metal strips,

Fig. 22

A twelfth embodiment of the invention, in which the adjusting element 10 is formed by a bent to a U sheet metal strip, which has an angular shape, wherein two mutually facing angle legs have mutually facing hook openings,

Fig. 23

A thirteenth embodiment, in which a supplementary leg 24 is provided for holding a hollow pan brick,

Fig. 24

A fourteenth embodiment, in which the supplementary leg is formed by a metal strip having hook openings,

Fig. 25

a fifteenth embodiment of the invention, in which the supplementary leg 24 is formed by a wire hanger and is acted upon by a spring 27.

That in the FIGS. 1 to 3 illustrated embodiment relates to a storm clip whose application in the FIG. 3 is illustrated schematically. The attic has a plurality of parallel to each other in the horizontal direction roof battens 11. In each case a number of roof tiles 12 ', 12 "lie with their cup heads on such a batten 11 on. When covering the roof more roof tiles 12 are laid on such a lower row in an upper row. The reference numeral 12, a roof tile of the upper row to be laid is shown. By means of the storm clip according to the invention, the last laid roof tile 12 is clamped to the roof batten 11. This takes place with the interposition of the two roof tiles 12 ', 12 "of the lower row already laid in. For this purpose, a hook end 3 of a spring leg 1 of the storm clamp engages in the side fold 13 of the overhead roofing panel 12. The hook end 4 of the other spring leg 2 engages under the roof lath 3 With the aid of the adjusting element 10, the bending stiffness of the spring legs 1, 2 can be adjusted.

In the in the FIGS. 1 . 1a and 2 illustrated first embodiment, the storm clip is made of a single section of a piece of spring steel wire. The spring steel section forms two spring legs 1, 2 which are connected to each other in a material-uniform manner in a connecting section 5. In the connecting portion 5, the spring legs 1, 2 are connected to each other in a U-shape. At the connecting portion 5, an adjustment range 6 extends, in which the spring legs 1, 2 are bent wave-shaped. There, the two spring legs 1, 2 are substantially U-shaped next to each other, wherein the U-legs are bent wave-shaped.

As a result of the wave-shaped bending of the spring steel wire in the adjustment region 6, retaining bays 7, 8 form. The wave trough of a spring leg 1 is opposite a wave crest of the other spring leg 2 and vice versa. Thus, portions of the spring leg 1, 2 are formed which are closely adjacent in corresponding portions of the respective other spring leg 2, 1 and which are adjacent to the portion of the other spring leg. The adjacent portions of the waveform form said retaining bays 7, 8. By means of a piece of wire bent into a ring, which forms an adjusting element 10, the two spring legs 1, 2 can be tied together in the region of the holding bays 7, 8. The FIG. 1 shows how the two spring legs 1, 2 are tied together in the region of the retaining bay 7 by means of the wire ring 10. The effective length of the spring leg 1 is thus by the distance of the retaining bay 7 from the connecting portion 5 with respect to the in FIG. 2 shortened situation shown. The bending of the spring legs 1, 2 away from each other thus requires a larger force.

In the in FIG. 1a illustrated situation, the two spring legs 1, 2 are tied together in the region of the holding bay 8 by means of the adjusting element 10, so that the effective length of the spring legs 1, 2 has further shortened.

In the in the FIGS. 4 to 6 illustrated second embodiment is also a spring steel wire, which is bent such that starting from a U-apex region 5, the two spring legs 1, 2 initially substantially parallel to each other and form an adjustment range 6. In this setting are three holding bays 7, 8, 9 each opposite, so that in the FIG. 6 shown annular adjustment member 10 can be brought into three different adjustment positions.

Starting from the adjustment range 6, the spring legs 1 extend in mutually different directions. The angle occupied by the spring legs 1, 2 in the relaxed state is approximately 60 degrees. Hook ends 3, 4 are formed at the ends of the spring legs 1, 2, the hook legs of the hook ends 3, 4 pointing in mutually different spatial directions.

That in the FIGS. 7 to 9 illustrated third embodiment differs from the second embodiment essentially in that the spring legs 1, 2 occupy a 90 degree angle to each other and the spring legs 1, 2 in the adjustment area 6, ie where the holding bays 7, 8, 9 are in the relaxed state V-shaped, so slightly divergent from each other.

Different is also in the FIGS. 8, 9 illustrated adjustment. It is such a wound piece of wire that with the windings several adjustment stages 14, 15, 16, 17 arise at which the holding bays 7, 8, 9 can be tied together in different spacing position. With this adjusting element 10 in combination with the connecting element of FIG. 7 Thus, not only the effective lengths of the spring legs 1, 2 can be varied by means of the adjusting element 10. It can also the angle of the spring legs 1, 2 are reduced, so be set gradually. For this purpose, the holding bays 7, 8, 9 of a spring leg 1, for example, to the adjustment stages 16, 17 and the holding bays 7, 8, 9 of the other spring leg 2 at the holding levels 14, 15th

The FIG. 10 shows a fourth embodiment of a variant of an adjustment in which a wire section is bent to an annular opening 18 through which a spring leg 1 can be threaded. The two ends of the wire section are formed into hooks which form adjustment steps 14, 15 having a different distance to the attachment opening.

The FIG. 11 shows a fifth embodiment of the invention, in which a piece of wire is formed to a mounting opening 18. The attachment opening 18 here also has the shape of a closed ring. Unlike the one in the FIG. 10 illustrated embodiment, three adjustment stages are formed by three U-sections of a wire leg, wherein the three adjustment stages 14, 15, 16 are far different from the mounting hole 18.

That in the FIG. 12 illustrated sixth embodiment shows an adjustment 10, which has the shape of a flat sheet metal strip. In the shallow Sheet metal strip is punched or drilled a mounting hole 18 through which a spring leg 1, 2 can be threaded. The metal strip also has two different distances far from the mounting hole 18 hook openings, each forming Einstellstufen 14,15.

In the in the FIG. 13 shown seventh embodiment, only one holding bay 8 is provided, which is opposite to a holding bay 7. That in the FIG. 14 illustrated adjusting element consists of a metal strip with a closed mounting hole 18, through which, for example, the spring leg 1 can be threaded, so that the adjusting element 10 is located with its attachment opening 18 in the region of the holding bay 8. From an edge of the adjusting element 10 forming sheet metal strip protrude from a plurality of rack-like toothed webs, each extending obliquely. These toothed webs form setting stages 14, 15, 16, 17, in which the retaining bay 8 can be hooked. It can thus the example in the FIGS. 15 and 16 shown operating positions can be achieved in which the spring legs 1, 2 have different angular positions from each other.

The FIG. 17 shows an eighth embodiment in which a made of a metal strip adjustment element 10 has a closed all around window 19 which can be produced by punching. In addition, the metal strip has a fastening opening 18 which is closed all around. In the window 19, rack-like hooked webs protrude, forming setting steps 14 to 17. The window 19 is penetrated by one of the two spring legs 1, 2.

In the in the FIGS. 18 and 19 illustrated ninth embodiment, the adjustment member 10 is also formed as a metal strip. The sheet metal strip has a punched opening in which a plurality of tongues 20 are opposite each other. Like from the FIG. 19 can be seen, the tongues 20 are bent away from each other, so that the adjustment to about 45 degrees the longitudinal axis has to be rotated when a spring leg 1, 2 is to be brought from an adjustment stage 14, for example, in a further adjustment stage 15. The tongues 20 'are located at the end of a window forming the attachment opening 18 and may be bent in the opposite direction to the tongues 20 so that the connecting element as a whole must be rotated 90 degrees about its longitudinal axis when the tension of the spring legs 1, 2 is to be changed ,

The tenth, in the FIG. 20 embodiment shown relates to an adjustment 10, which is made of a metal strip. Each of the two legs 21, 22 has hook notches 18, 14, 15, 16, the hook notches 18 being closest to a U-apex area 23 and fulfilling the function of a fastening opening. The mutually pointing away hooks 14, 15, 16 of the two legs 21, 22 form adjustment stages. Again, designed as a "tooth rake" adjustment 10 for angular adjustment of the spring legs 1, 2 must be rotated by 90 degrees.

At the in FIG. 21 illustrated eleventh embodiment, the adjusting element 10 consists of two separate legs 21, 22, the scissor-like a spring leg 1, 2 can be assigned. The spring legs 1, 2 is then in a mounting opening 18. The two legs 21, 22 form mirror-symmetrically arranged hooks adjustment stages 14 to 16, which can be placed by pressing the two legs 21, 22 about the other spring leg 1, 2.

In the in the FIG. 22 illustrated twelfth embodiment, the adjusting element 10 is formed by a bent to a U-shape sheet metal strip, which also has an angle leg. The two angle legs 21, 22 are mirror-symmetrical to each other and each have hook openings, the adjustment stages 14, 15, 16, 17 form. In the apex area In one of the many hook openings is the other spring leg 1. A hinge is thus firmly connected to the spring leg 2. Another portion of this "crocodile clip" can be fixed in a selectable distance position by squeezing the legs on the spring leg 1. It slips a hook opening over the spring leg. 1

The FIG. 23 shows a thirteenth embodiment, wherein the spring legs 1, 2 forming connecting element substantially the shape of the in the FIGS. 4 to 6 Having shown connecting element. Here, a supplementary leg 24 is additionally provided, which is formed by a piece of wire. The piece of wire has a hook end 25 and a mounting end 26. With the hook end 25, the existing of spring steel wire supplementary legs 24, for example, a Kopffalz one with the reference numeral 12 'in the FIG. 3 shown roof tile are placed, if this is not adequately covered by the roofing plate 12 to be fastened. The hook end 25 lies in a Kopffalz, which is located directly above the roof batten 11. The attachment end 26 is fastened to one of the two spring legs 1, 2, preferably in the region of the adjustment region 6. The supplementary leg is bent and thus unfolds the function of a spring leg.

The FIG. 24 shows as a fourteenth embodiment, a supplementary leg 24, which is formed by a metal strip, and which is used exactly as it FIG. 23 has been described. Also, this supplementary leg 24 has a hook end 25 for hooking into the Kopffalz a roofing plate 12 '. However, the supplementary leg 24 has a plurality of fastening openings 26, which are arranged at different distances from the hook end 25 and in which a spring legs 1, 2 can be hooked in particular in the region of the adjustment.

The FIG. 25 shows as a fifteenth embodiment of a storm clip as shown in the FIG. 1 is shown. One of the spring legs 1 carries a helical gear compression spring 27. The spring steel wire of the spring leg 1 protrudes through the helical turns of the spring 27. The spring 27 is also penetrated by a supplementary leg 24 made of wire beyond. The attachment end 26 forms an abutment. The other abutment is formed by the transition region of the substantially rectilinear portion of the spring leg 1 to the adjustment region 6. As a result, the hook end 25 of the extension leg 24 is spring-loaded by the spring 27. For example, if a train is applied to the hook end 25, the compression spring 27 is compressed. The compression spring 27 thus provides a clamping force with which the roofing plate 12 'is acted upon against the roof batten, which is engaged by the hook end 3. The hook end 4 is supported, as already described above, in the Seitenfalz the roofing plate 12 from.

All disclosed features are essential to the invention. The disclosure of the associated / attached priority documents (copy of the prior application) is hereby also incorporated in full in the disclosure of the application, also for the purpose of including features of these documents in claims of the present application. The subclaims characterize in their optionally sibling version independent inventive developments of the prior art, in particular to make on the basis of these claims divisional applications.

LIST OF REFERENCE NUMBERS

1

spring leg

2

spring leg

3

hook end

4

hook end

5

connecting portion

6

Adjustment

7

Rest Stop

8th

Rest Stop

9

Rest Stop

10

adjustment

11

batten

12

Roof tile / roof tile

12 '

Roof tile / roof tile

12 "

Roof tile / roof tile

13

side fold

14

Setting stage / hook incision

15

Setting stage / hook incision

16

Setting stage / hook incision

17

Setting stage / hook incision

18

Attaching opening / hook incision

19

window

20

tongue

20 '

tongue

21

leg

22

leg

23

connecting portion

24

supplement leg

25

hook end

26

attachment end

27

feather

Claims (10)

Storm clip for attaching to roof battens (11) of a roof-mounted roofing plates (12) on the roof battens (11), with a two spring legs (1, 2) having connecting element, wherein the two spring legs (1, 2) hook ends (3, 4) with which one spring leg (1, 2) can be clamped in the side fold (13) of a roof covering plate (12) and the other spring limb (2, 1) on the downwardly facing side of the roof lath (11), characterized in that the spring force of the spring legs (1, 2) can be adjusted by means of an adjusting element (10) acting on the spring legs (1, 2). Storm clip according to claim 1 or in particular according thereto, characterized in that the effective length of the flexurally elastic spring legs (1, 2) or their angle to each other by means of the adjusting element (10) is adjustable. Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the connecting element forms a substantially V- or U-shaped adjustment region (6), in which the spring legs (1, 2) retaining means, in particular retaining bays (7, 8 , 9) form for attachment or storage of the adjusting element (10). Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that each spring leg (1, 2) has a plurality of holding bays (7, 8, 9) arranged differently away from the hook end (3, 4) for optionally locating the adjusting element (10 ). Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the connecting element integrally interconnected, in particular made of spring steel wire spring leg (1, 2) is formed. Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the adjusting element (10) is designed as a ring, in particular as a wire ring. Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the adjusting element (10) at different distances from one another or different from a mounting opening (18) arranged adjusting stages (14, 15, 16) for varying the angle between the two Spring legs (1, 2). Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the holding element (10) is a sheet-metal strip and in particular the setting stages (14, 15, 16) are designed as hook openings, wherein the hook openings in particular in a peripherally closed window ( 19) protrude. Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the adjustment stages (14, 15, 16) are formed by tongues (20) which are bent out of the plane of a sheet-metal strip in opposite directions. Storm clip according to one or more of the preceding claims or in particular according thereto, characterized in that the adjusting element (10) is formed by a bent into a U-shape sheet metal strip or two metal strips with oppositely oriented hook openings.

Images