DE202013004877U1 - Telescope holder for solar modules - Google Patents

Abstract

Telescope support for plate-shaped component plate-shaped components, in particular solar modules, comprising - a first support rail and a second support rail which overlap each other in their longitudinal extent at least partially, - wherein the first support rail on its side remote from the second support rail side a longitudinal end with an end piece for receiving a plate-shaped Components and on the second retaining rail side facing at least partially has a profile, - wherein the second retaining rail on its side facing the first retaining rail has a sawtooth profile, further comprising - a first and the second retaining rail at least partially embracing terminal, the contact pressure the first and the second retaining rail exerts, wherein the profile of the first retaining rail and the sawtooth profile of the second retaining rail are formed such that upon engagement of the profile and the sawtooth profile due to the Contact pressure is a first relative movement of the support rails to each other, in which the overlap of the support rails in their common longitudinal direction is larger, is possible, and a second relative movement of the support rails to each other, in which the overlap of the support rails in the common longitudinal direction is smaller blocked.

Description

The invention relates to a telescopic support for plate-shaped components, in particular for plate-shaped components made of glass such as solar modules, in particular solar modules without frame. The invention also relates to a holding arrangement and a solar module arrangement.

Devices for holding solar modules, in particular for securing against slipping on an inclined surface are known. Such Abrutschsicherung is for example already in the DE 10 2010 002 834 A1 shown. It consists of a fixed to a cross brace support arm of defined length, which has at its lower end a U-shaped receptacle for holding the solar module. In the DE 20 2011 105 259 U1 a slip-off is described, which takes place from a positive locking between the module frame and the support rails of the substructure. From the DE 203 04 099 U1 is a holding element for solar modules is known, which also prevents slipping from an inclined surface. To adapt to different sizes of the modules, the holding element consists of two mutually displaceable rails, which are screwed together via a screw together according to the size of the module. In EP 2 093 524 A1 is a holder of two mutually adjustable rails described, the rails must be lifted to adjust from each other or go each other must be rotated.

The object of the invention is to provide a holder for plate-shaped components, which prevents slippage of the plate-shaped components and is both easy to adjust and inexpensive to manufacture.

• – eine erste Halteschiene und eine zweite Halteschiene, die einander in ihrer Längserstreckung wenigstens teilweise überlappen,
• – wobei die erste Halteschiene auf ihrer von der zweiten Halteschiene abgewandten Seite ein Längsende mit einem Endstück zur Aufnahme eines plattenförmigen Bauteils und auf der der zweiten Halteschiene zugewandten Seite zumindest abschnittsweise ein Profil aufweist,
• – wobei die zweite Halteschiene auf ihrer der ersten Halteschiene zugewandten Seite ein Sägezahnprofil aufweist, weiter umfassend
• – eine die erste und die zweite Halteschiene zumindest teilweise umgreifende Klemme, die einen Anpressdruck auf die erste und die zweite Halteschiene ausübt,

wobei das Profil der ersten Halteschiene und das Sägezahnprofil der zweiten Halteschiene derart ausgebildet sind, dass bei Ineinandergreifen des Profils und des Sägezahnprofils aufgrund des Anpressdrucks eine erste Relativbewegung der Halteschienen zueinander, bei der die Überlappung der Halteschienen in ihrer gemeinsamen Längsrichtung größer wird, möglich ist, und eine zweite Relativbewegung der Halteschienen zueinander, bei der die Überlappung der Halteschienen in der gemeinsame Längsrichtung kleiner wird, blockiert ist.According to a first aspect of the invention, the object is achieved by a telescopic support for plate-shaped components, in particular solar modules, comprising

• A first holding rail and a second holding rail which at least partially overlap one another in their longitudinal extent,
• - Wherein the first retaining rail on its side facing away from the second retaining rail side has a longitudinal end with an end piece for receiving a plate-shaped member and on the second retaining rail side facing at least partially a profile,
• - Wherein the second retaining rail on its side facing the first retaining rail side has a sawtooth profile, further comprising
• A clamp which at least partially surrounds the first and the second retaining rail and which exerts a contact pressure on the first and the second retaining rail,

wherein the profile of the first retaining rail and the sawtooth profile of the second retaining rail are formed such that upon engagement of the profile and the sawtooth profile due to the contact pressure a first relative movement of the support rails to each other, in which the overlap of the support rails in their common longitudinal direction is larger, is possible, and a second relative movement of the support rails to each other, in which the overlap of the support rails in the common longitudinal direction is smaller, is blocked.

The telescopic support according to the invention, in addition to a secure holding of plate-shaped components at the same time allows easy mounting and alignment of one or more plate-shaped components. By applying pressure against the end piece for receiving the plate-shaped member in the longitudinal direction of the support rails, in which the overlap of the first and second support rail is larger, the holder can be shortened, at the same time a movement in the opposite direction, even when pressure z. B. prevented by the weight of the plate-shaped components. An extension of the holder is only possible if the terminal is released from at least one of the retaining rails and the first and the second retaining rail are newly arranged on each other.

In a preferred embodiment of the invention, the profile of the first retaining rail is a sawtooth profile. Such a sawtooth profile is particularly well suited to intervene with existing contact pressure in the sawtooth profile of the second retaining rail and thus to block a movement in one direction and to allow in a reverse direction.

It is also advantageous if the profile of the first retaining rail has a multiplicity of rectangular projections, these too, in conjunction with the sawtooth profile of the second retaining rail, permit a relative movement of the retaining rails in a longitudinal direction and effectively block them in the opposite direction.

In an advantageous embodiment, the first retaining rail has on its side facing the second retaining rail on a plurality of webs. These webs may also have a sawtooth profile, but they may also have a smooth bearing surface and serve as spacers. Advantageously, the webs are T-shaped, wherein the crossbar of the T of the second holding rail facing. Such a web shape is stable, has a high contact surface between the first and second retaining rail and leads by material savings to weight reductions of the holder.

In a preferred embodiment, the clamp is made elastic, so that an assembly of the telescopic support is made possible by simply pushing the clamp over the superposed first and second support rail. Preferably, the leg of the terminal, which is in contact with the second retaining rail, designed in the form of a curved spring leg. When pressure is applied against the receiving end of the first retaining rail, the first retaining rail is displaced in relation to the second retaining rail in this embodiment, the clamp is spread open.

Advantageously, the clamp is U-shaped and has two legs which are connected via a central piece, wherein at the middle of the opposite ends of the legs in each case a barb is formed. In this embodiment, the clamp can engage around the support rails in their transverse direction and securely hold between the center piece and the barbs.

In an advantageous embodiment, the first retaining rail on its side facing away from the second retaining rail side a recess for receiving a leg of the terminal. This makes it possible to apply a sawtooth profile of the first retaining rail only in a region of the first retaining rail, which corresponds to the region in which the recess is arranged.

Advantageously, the length of the first holding rail is 15 to 25 cm, in particular 20 to 25 cm, and the length of the second holding rail 20 to 30 cm, in particular 25 to 30 cm. In a particularly preferred embodiment, the length of the first retaining rail is 21 cm and the length of the second retaining rail 25 cm. This makes it possible to use the telescope mount for all common solar module sizes.

In a preferred embodiment of the telescopic aging, the second retaining rail has at its longitudinal end opposite the receiving of the first retaining rail longitudinal end of a connecting device for releasable connection with rails or roof components. For example, such a connection device may be in the form of a hook, which is hooked into the rail or in the form of screws which are fastened to a rail or roof component.

According to a second aspect, the invention relates to a holding arrangement comprising interconnected rails and a plurality of telescopic supports according to the first aspect of the invention, wherein the connecting devices of the second support rails are detachably connected to one of the rails. Such a holding arrangement can be easily and quickly mounted and allows secure mounting of plate-shaped components and accurate adjustment.

According to a third aspect, the invention relates to a solar module arrangement comprising a holding system according to the second aspect of the invention and a plurality of solar modules, wherein each solar module is inserted into the receptacle of at least one telescopic holder of the holding arrangement. The solar modules are placed in this arrangement in the recordings and can then be precisely aligned by pressure against the receiving piece of the telescope holder. The arrangement of two brackets per solar module and tilting of the solar modules can be prevented. In particular, it is advantageous to use the solar module arrangement for frameless solar modules.

Hereinafter, further embodiments of the invention will be described with reference to the accompanying figures. Show it:

1 an embodiment of a telescopic support according to the first aspect of the invention in an overall view

2 a detailed view of the telescopic mount in the area A according to 1

3 a sectional view of the telescopic support according to 1 on average AA.

4a . 4b Sawtooth profiles that can be used in embodiments of the telescopic mounts

5 a section of a solar module assembly according to the third aspect of the invention.

1 shows an embodiment of a telescopic support according to the first aspect of the invention. The telescope mount 100 has a first retaining rail 110 and a second retaining rail 120 on, which are adjustable in a plane against each other. The first and the second retaining rail are arranged partially overlapping each other. In addition, the telescope bracket points 100 a clamp 130 on which the first and the second retaining rail, embraces. the clamp 130 exerts a contact pressure on the first and the second retaining rail 110 . 120 out. At the second holding rail 120 opposite side of the first retaining rail 110 is at a longitudinal end of the first retaining rail 110 a U-shaped recording 150 for a plate-shaped component, for example a solar module attached. The U-shaped receptacle has a padding in an interior area 155 for the protection of the plate-shaped component. The first retaining rail 100 also has on its side facing away from the second retaining rail a depression 135 for receiving a leg of the clamp 130 on. In the opposite region of the first support rail 110 on the second retaining rail side facing the first retaining rail 110 over a sawtooth profile 115 , For distance compliance and support, the first retaining rail 110 a variety of jetties 140 on. The bridges 140 have a T-shape in this embodiment. This allows a good stability with low material use and low friction losses in the setting of the telescopic support realize. The second retaining rail 120 points to her the first holding rails 110 facing side a sawtooth profile 125 on. The sawtooth profiles of the first and the second retaining rail interlock and are additionally characterized by that of the terminal 130 applied contact pressure pressed together. The sawtooth profiles each have steep and flat flanks (shown in detail in FIG 4 ), which each form the teeth. To prevent a relative movement of the first and the second retaining rail to each other, such that the total length of the telescopic support is greater, the steep edges of the teeth of the sawtooth profile of the second retaining rail 120 from the longitudinal end of the telescopic support to which the U-shaped receptacle 150 is arranged, facing away. The steep flanks also block at train Z at the U-shaped receptacle 150 a movement. The flat flanks of the teeth of the sawtooth profile of the second retaining rail 120 on the other hand are the longitudinal end of the telescopic support on which the U-shaped receptacle 150 is arranged, facing. By applying pressure D against the U-shaped receptacle 150 Thus, the telescopic support can be shortened. When moving the first and the second retaining rail 110 . 120 against each other, the first retaining rail slides over the flat flanks of the teeth of the sawtooth profile of the second retaining rail 120 and the elastic clamp 130 is spread slightly until the next tooth of the sawtooth profile 115 in the sawtooth profile 125 locks.

The second retaining rail 120 In the illustrated embodiment also has a connection device at its end remote from the U-shaped receptacle 170 for connecting the telescopic support, for example, with a rail. The connection device 170 has a claw 171 for hanging in a rail. For better absorption of the counterforce when moving the first and the second holding rail against each other, the connecting device 170 with a support nose 172 equipped, which can be supported on the rail. To compensate for the difference in height between the first and second retaining rail is the second retaining rail 120 in the area of the connection device 170 saddle-shaped arched. The saddle-shaped bulge 173 can simultaneously serve to support against an edge of the rail. Furthermore, the saddle-shaped bulge serves as a support for a plate-shaped component and it is therefore expedient to provide it with a padding 174 to provide.

2 shows a detailed view of the telescopic mount in the area A according to 1 , Here it is clear that a straight leg 131 the clamp 130 in the depression 135 the first retaining rail is arranged. While on the side of the second retaining rail 120 a curved spring leg 132 is arranged. By this arrangement, the second retaining rail shifts in pressure against the U-shaped receptacle 120 in relation to the clamp 130 and to the first retaining rail 110 , This allows the sawtooth profile 115 the first support rail executed only in the region of the depression and not over the entire length of the first retaining rail. By fixing the clamp 130 on the first support rail ensures that the contact pressure of the terminal 130 always acts in an area where the two sawtooth profiles 115 and 125 meet.

3 shows the elastic clamp 130 in a section AA according to 2 , the clamp 130 encloses the two support rails in a U-shape 110 and 120 and pushes with her thighs 131 and 132 the two retaining rails 110 and 120 on each other so that the teeth of the sawtooth profiles of the support rails make a positive connection. The elastic clamp 130 This is done via the parallel superimposed support rails 110 and 120 and beaks with barbs 133 . 134 with complete clasping of the two retaining rails 110 and 120 one. The elasticity of the clamp 130 is designed so that at a pressure against the U-shaped receptacle of the first retaining rail 110 spread the legs of the elastic clamp apart, the second holding rail 120 is shifted in relation to the first support rail and so a shortening of the telescope holder 100 is reached.

4a and 4b show sawtooth profiles that can be used in embodiments of the telescopic mounts. At the in 4a shown sawtooth profiles form the flanks 417 . 427 the teeth an angle 418 of 20 ° with a retaining rail level 419 , The steep flanks 416 . 426 form with a vertical 411 to the retaining rail level 419 a negative angle. Thus, the tooth tips engage behind 412 the first retaining rail 410 the tooth tips 422 the second retaining rail 420 , With this embodiment of the sawtooth profiles, a relative movement of the first and the second retaining rail, which would lead to an extension of the telescopic support can be blocked particularly effectively. In the 4b sawtooth profiles shown differ from those in 4a through the angle 418b The flat flanks of the Form teeth with the rail plane, it is in 4b 45 °. For the same length of the steep flanks, this also leads to a larger number of teeth on the same length of the support rails.

5 shows a section of a solar module assembly according to the third aspect of the invention. The classification of the telescope holder 500 in one of cross struts 502 and longitudinal struts 501 existing substructure for fixing solar modules 503 on a plane inclined to a horizontal plane 504 a substructure z. B. a roof is shown. The assembly of solar modules in the solar module arrangement according to the invention is outlined below. The telescope mounts 500 are first brought to their maximum length. For this purpose, the first and the second retaining rail are superposed with a minimum overlap and the clamp attached. Then the telescope mounts 500 by means of a connecting device in each case in a transverse strut 501 hung in such a way that they are in the plane 504 of the substructure z. B. is aligned on the roof slope. Subsequently, a solar module 503 inserted into two of the telescope holders 500 , For adjustment is now against the U-shaped receptacles of the telescopic mounts 500 a pressure exerted until the telescope mounts 500 shortened to a desired length. Thus, the solar module 503 securely held during adjustment, protected against slippage and must not be held or raised by the fitter during adjustment.

LIST OF REFERENCE NUMBERS

100

telescopic support

110

first retaining rail

115

sawtooth

120

second retaining rail

125

sawtooth

130

clamp

131

straight thigh

132

arched spring leg

133

barb

134

barb

135

deepening

140

web

150

U-shaped receptacle

155

upholstery

170

connecting device

171

claw

172

support nose

173

saddle-shaped bulge

174

upholstery

410

first retaining rail

411

Vertical to the retaining rail level

412

tooth tip

416

steep flank

417

flat flank

418

angle

418b

angle

419

Support rail level

420

second retaining rail

422

tooth tip

426

steep flank

427

flat flank

500

telescopic support

501

longitudinal strut

502

crossmember

503

solar module

504

Level of a substructure

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010002834 A1 [0002]
• DE 202011105259 U1 [0002]
• DE 20304099 U1 [0002]
• EP 2093524 A1 [0002]

Claims (9)

Telescopic support for plate-shaped component plate-shaped components, in particular solar modules, comprising A first holding rail and a second holding rail which at least partially overlap one another in their longitudinal extent, - Wherein the first retaining rail on its side facing away from the second retaining rail side has a longitudinal end with an end piece for receiving a plate-shaped component and on the second holding rail side facing at least partially a profile, - Wherein the second retaining rail on its side facing the first retaining rail side has a sawtooth profile, further comprising A clamp which at least partially surrounds the first and the second retaining rail and which exerts a contact pressure on the first and the second retaining rail, wherein the profile of the first retaining rail and the sawtooth profile of the second retaining rail are formed such that upon engagement of the profile and the sawtooth profile due to the contact pressure a first relative movement of the support rails to each other, in which the overlap of the support rails in their common longitudinal direction becomes larger, is possible, and a second relative movement of the support rails to each other, in which the overlap of the support rails in the common longitudinal direction is smaller, is blocked. A telescopic support according to claim 1, wherein the profile of the first support rail is a sawtooth profile. Telescope holder according to claim 1 or 2, wherein the first retaining rail on its side facing the second retaining rail side having a plurality of webs. A telescopic support according to claim 3, wherein the webs are T-shaped and wherein the crossbar of the T facing the second retaining rail. Telescope holder according to one of the preceding claims, wherein the first retaining rail on its side remote from the second retaining rail side has a recess for receiving a leg of the terminal. Telescope holder according to one of the preceding claims, in which the longitudinal extent of the first holding rail 15 to 25 cm, in particular 21 cm, and the longitudinal extent of the second holding rail 20 to 30 cm, in particular 25 cm, is. Telescope holder according to one of the preceding claims, wherein the second holding rail has at its longitudinal end opposite the receiving of the first holding rail longitudinal end a connecting device which is adapted to releasably connect the holder with a rail or a roof component. A retainer assembly comprising interconnected rails and a plurality of telescopic brackets according to claim 7, wherein the connecting devices of the second support rails are detachably connected to one of the rails. Solar module arrangement comprising a holding arrangement according to claim 8 and a plurality of solar modules, wherein each solar module is inserted into the receptacle of at least one telescopic holder of the holding arrangement.

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