DE202009012870U1 - Holding device for plate-shaped elements - Google Patents

Abstract

Holding device (10; 50) for plate-shaped elements, in particular for solar modules, wherein the holding device (10; 50) comprises two mutually opposite basic bodies (11, 12; 51, 52), each having one or two clamping wings (13, 13 ', 14 , 14 '; 53, 54) and central support elements (15, 15', 16, 16 '), characterized in that the two base bodies (11, 12; 51, 52) in the region of the support elements (15, 15', 16, 16 ') are guided on at least one spring-mounted connecting element (17) displaceable relative to one another between an open position and a closed position, the spring force holding the holding device (10, 50) in an open position.

Description

The The present invention relates to a holding device for plate-shaped elements, in particular for solar modules, according to the preamble of claim 1.

Nice For a long time, the thermal energy of the sun's rays is harnessed. With active use of the thermal energy of the sun's rays will the solar heat collected on absorber surfaces and used for heating a medium or for example converted into electrical energy. The transformation into electrical Energy (photovoltaic) takes place by means of so-called solar cells, which are combined into solar modules.

The Fixing of solar modules, for example on building facades, Roofs or freestanding beams usually takes place on a scaffold, directly or indirectly attached to a building facade or roof construction or is erected freestanding. The assembly of the solar modules themselves takes place by clamping in suitable holding devices.

The Utility Model DE 20 2004 015 261 U1 describes, for example, a holding device which has a transverse web with two supporting webs and wing webs projecting from both sides on the transverse web. The holding device is fastened by means of a screw on a base profile and clamps below the two wing webs on both sides of the solar modules firmly.

There It is usually sensitive to solar modules and in particular is very sensitive to pressure, is the installation of the solar modules not without problems. Often the assembly takes place in difficult Working positions for the fitter, for example when the solar modules are mounted on a sloping roof. Thus, the installation of the solar modules should be simple and with few Handles can be done.

There are therefore holding devices, so-called laminate clamps, offered, which consist of an upper and a lower body, each having double-sided clamping wings. Between the clamping wings, the solar modules are inserted. The laminate clamp with the inserted solar modules is mounted on the support frame, wherein the solar modules between the clamping wings are clamped and fixed. For example, the utility model describes DE 20 2007 016 861 U1 a clamping device for fixing solar modules, comprising an upper and a lower clamp. Here, the upper clamp is designed so that the upper clamp is guided in the lower clamp. The problem here is that the upper and the lower part of the clamping device is brought together only during the assembly of the solar modules. The fitter must thus handle the attachment of the solar modules two items of laminate clamp, which must be assembled so that they are put together for a precise fit and on the other hand in a correct way embrace the solar module between the clamping wings. This can be difficult especially when mounting on a sloping roof. For the safe installation of solar modules with such laminate clamps therefore often the help of a second person is required, which holds the solar module in the appropriate position until the laminate clamp is assembled accordingly and fixed in its final position.

To solve this problem proposes the utility model DE 20 2008 002 264 U1 a laminate clamp composed of upper and lower bodies. Both main body are joined together before the actual assembly of the solar modules and connected by a compressible block which is arranged between support webs of the two main body. The block is in this case designed so that on the one hand holds both basic body together and on the other holds the laminate clamp in an open position. When fixing the solar modules by, for example, a screw which extends through both main body in a corresponding recess, the block is compressed, that is compressed, so that the solar modules between the clamping wings can be clamped. To increase the accuracy of fit, the free ends of the opposing support webs of the body are designed as a tongue and groove. The disadvantage of this solution is that it can come through the design of the support webs as a tongue and groove to a wrong assembly in the manufacture of the laminate clamp. This results in the screwing of the laminate clamp by the resulting frictional forces to a rotation of the body against each other. Furthermore, the connection of both bodies by the compressible block, which is usually made of foam, often not stable enough to prevent loosening of both bodies from each other during storage or during transport of the laminate clamp.

The Invention is therefore the task, the disadvantages described to eliminate and a laminate clamp or a holding device to provide for plate-like elements, the inexpensive and easy to manufacture and a simple one and safe installation of solar modules allows, where the assembly can be done in a few simple steps can.

This task is performed by a Haltevorrich solved device for plate-shaped elements, as described in claim 1. Advantageous embodiments of this holding device are the subject of the dependent claims.

The Holding device according to the invention is for fixing of plate-shaped elements, in particular of solar modules intended. The holding device comprises two mutually opposite basic bodies, each one or two clamping wings and central support elements exhibit. According to the invention, it is provided that the two main body in the area of the support elements at least one spring-mounted connection element against each other displaceable between an open position and a closed position are guided. Here, the spring force holds the Holding device in an open position. The closed position or the clamping position of the holding device is counter to the spring force brought about by squeezing the body. This holding device according to the invention has the Advantage that the upper and the lower part of the laminate clamp, ie the two opposite basic body, are joined together by the connecting element, wherein by the resilient mounting of the connecting element, the main body and thus the clamping wings so stable in an open position be held that solar modules with the help of this holding device fixed with only a few movements between the clamping wings can be.

Preferably the basic bodies are roughly the same. In Other embodiments, the upper and the lower body differ from each other, for example in adaptation of the lower body to a support element, For example, a C-profile support on which the inventive Holding device is to be attached.

With particular advantage are the central support elements of Basic body in each case as two parallel webs designed. These webs serve as a spacer, if the two main body in a clamped position for mounting the solar modules are brought. Furthermore, limit the support elements or the parallel webs the clamping pressure on the Solar modules works. In addition, the support elements and in particular the parallel webs an interior space between the webs provided for receiving the connecting element is that connects both basic body with each other.

In a particularly preferred embodiment of the invention Holding device, the support elements projections on, in particular bends on the open ends of the support elements, So the ends of the support elements in the assembled State of the body collide. The at least one connecting element has approximately opposite recesses on, so that the one or more fasteners form fit can be positioned between the support elements and the main body in the region of the support elements mutually displaceable on the one or more connecting elements be guided. The bends offer this at the same time a bearing surface for the opposite Support elements. Preferably, this has at least one connecting element a substantially I-shaped profile structure or a double T-shaped profile structure, so that the connecting element can be inserted between the support elements and enough clearance exists to the two main body for clamping the solar modules between the clamping wings to approach each other. The upper and lower area of this Profile structure can be equal. With particular advantage is one of these areas is larger in thickness and adapted to the dimensions of the support elements such that this area of the profile structure between the support elements a body formed cavity in height completely fills, leaving the connector is stored stable between the support elements.

The at least one connecting element is preferably made of plastic, made of hard PVC, for example. Other materials are also possible. The basic body of the holding device are preferably made of metal, with particular advantage of aluminum Made in terms of stability and weight especially is advantageous. The main body of the holding device can For example, be made of plastic, as long as a sufficient stability is ensured.

In a particularly preferred embodiment of the invention Holding device is for resilient mounting of the at least one connecting element at least one spring, in particular a coil spring provided. This may be a standard coil spring in Act form a compression spring, for example, spring steel is made. The spring constant of the spring is preferably so chosen that the spring force is sufficient, the inventive Hold the holding device in the open position. The spring force should However, do not be too strong, so the setting the clamping position by squeezing the body the holding device is not too much effort requires.

Preferably, the spring is mounted or fixed in a recess of the at least one connecting element. For example, this may be a simple hole, in particular a blind hole, in the connecting element act, in which the spring is inserted. In the manufacture or assembly of the holding device according to the invention, the holding element is preferably introduced with the side, which is not equipped with the spring, between the support elements of a base body. Subsequently, the spring, which is or is inserted on the other side of the connecting element, compressed, so that the other body can be pushed.

In a preferred embodiment of the invention Holding device, the main body respectively at least a recess, in particular a central bore between the clamping wings on, for receiving a fastener for fixing the Holding device is provided on a support element. With the help of this fastener, such as a screw, be both basic bodies joined together and compressed, so that they assume the clamping position and one or both sides Hold solar modules between the clamping wings and fix them can.

Preferably is the holding device according to the invention as Double clamp with double-sided clamping wings, so that the holding device according to the invention respectively a solar module can pinch on both sides. In another preferred Embodiment is the invention Holding device provided as edge clamp, which only on one side Clamping wing has. Furthermore, it can be provided that the double clamp described for clamping only one solar module is used, being between the unneeded clamping wings the opposite side in this case a spacer, for example, in the form of a block-shaped element corresponding Dimension is inserted.

In a particularly preferred embodiment of the invention Holding device, the clamping wing have elastic profiles, For example, rubber seals, on. These elastic profiles serve especially the protection of the solar module when pinching and avoid Damage to the solar module. Furthermore, this will the hold of the solar modules in the terminal improved. Preferably are for fixing the elastic profiles one or more insertion grooves provided on the inside of the clamping wings, so that the elastic profiles, the corresponding opposite protrusions have, easily and securely attached to the clamping wings can be. To improve the maintenance of the solar modules between the clamping wings, the elastic Profiles have corrugations on the solar modules side facing.

Further Features and advantages of the invention will become apparent from the following Description of embodiments related with the drawings. Here are the individual characteristics each realized individually or in combination with each other be.

In show the drawings:

1 a preferred embodiment of a holding device according to the invention in the open position;

2 the holding device according to the invention 1 in a pinching position;

3 the holding device according to the invention 1 in clamping position in isometric view;

4 a longitudinal section through the holding device according to the invention 1 in open position and

5 a preferred embodiment of a holding device according to the invention as an edge clamp in clamping position in an isometric view.

1 shows the holding device according to the invention 10 in cross section. The holding device 10 is made up of an upper body 11 and a lower body 12 together. The basic body 11 and 12 are essentially the same. Both basic body 11 and 12 have clamping wings on both sides 13 . 13 ' and 14 . 14 ' on. The holding device 10 is realized as a double terminal. As spacers are central support elements 15 . 15 ' and 16 . 16 ' in both basic bodies 11 and 12 intended. From these support elements 15 . 15 ' and 16 . 16 ' , as each two parallel webs per body 11 . 12 are designed, a cavity is bounded, in which a connecting element 17 is arranged. The connecting element 17 is designed as a block with I-shaped profile structure, in the length of the holding device 10 just fill in a section. Per holding device 10 are preferably two connecting elements 17 in the edge regions of the holding device 10 intended. The supporting webs 15 . 15 ' and 16 . 16 ' and the connecting element 17 are adapted to each other in shape so that a positive positioning of the connecting element 17 between the support elements 15 . 15 ' and 16 . 16 ' is possible. Preferably, these are bends 19 at the open ends of the support elements 15 . 15 ' . 16 . 16 ' provided in the I-shaped profile structure of the connecting element 17 intervention.

The connecting element 17 is at the upper body 11 spring-mounted. This is due to the arrangement of a spring, in particular a coil spring 18 , on the connecting element 17 realized. This coil spring 18 is in a bore (not visible here), in particular a blind hole, on the top of the connecting element 17 plugged in. By the spring force and by the shape of the connecting element 17 is a lock of the holding device according to the invention 10 in the way that causes the main body 11 . 12 held together and that the clamping wings 13 . 13 ' and 14 . 14 ' are in an open position.

A squeezing of the main body 11 and 12 against by the spring 18 caused spring force closes the holding device such that the clamping wings 13 and 14 and 13 ' and 14 ' each approach each other and between them a plate-shaped element, in particular a solar module, can clamp.

The clamping position or closed position of the holding device 10 is in 2 illustrated. In this position, plate-shaped elements (not shown here) between the clamping wings 13 and 14 and 13 ' and 14 ' clamped fixed and held. To protect the solar modules are the solar modules facing sides of the clamping wing 13 . 13 ' and 14 . 14 ' with elastic profiles 21 . 21 ' and 22 . 22 ' Mistake. These elastic profiles are preferably realized as rubber profiles, the insertion grooves 23 . 23 ' . 24 . 24 ' in the clamping wings 13 . 13 ' and 14 . 14 ' attached to the clamping wings. In other embodiments, the elastic profiles may be glued or otherwise secured to the insides of the clamping wings. The attachment by means of insertion grooves, however, on the one hand a very durable and stable solution. On the other hand, this embodiment is in the production of the holding device according to the invention 10 advantageous because the assembly is very easy.

3 shows an isometric view of the holding device according to the invention 10 in a pinching position. Between the basic bodies 11 and 12 is the connecting element 17 arranged. In the longitudinal direction is the connecting element 17 preferably designed as a relatively short block. Preferably, in both edge regions of the holding device 10 each a connecting element 17 intended. In the basic bodies 11 and 12 is for performing a fastening means, in particular a screw 31 , a central hole provided. Below the holding device 10 grips the thread of the screw 31 in a threaded plate 32 a, with the help of the holding device 10 on a support element, for example a C-profile support, is fixed and fixed. Furthermore, with the help of the fastener 31 the main body 11 and 12 the holding device 10 compressed so that the clamping wings 13 and 14 respectively. 13 ' and 14 ' move from the open position to a clamping position, in the plate-shaped elements between the clamping wings 13 . 14 and 13 ' . 14 ' be held clamped.

The in the 1 to 3 shown holding device according to the invention 10 is designed as a double clamp, which is provided for clamping both sides of plate-shaped elements.

4 shows a longitudinal section through the holding device according to the invention 10 , The upper body 11 and the lower body 12 are from a central hole 41 breached. The hole 41 is for performing a threaded bolt, for example a screw provided, on the one hand for fixing the holding device according to the invention 10 is provided on a support member and on the other to close the holding device. The two connecting elements 17 are in the two edge regions of the holding device 10 arranged. To recognize is the blind hole 42 in the fasteners 17 into which the spring 18 is plugged in.

5 shows a further embodiment of the holding device according to the invention as an edge clamp 50 , The basic body 51 and 52 each have clamping wings on only one side 53 and 54 on, which are provided for the clamping support of a plate-shaped element.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202004015261 U1 [0004]
• - DE 202007016861 U1 [0006]
• - DE 202008002264 U1 [0007]

Claims (10)

Holding device ( 10 ; 50 ) for plate-shaped elements, in particular for solar modules, wherein the holding device ( 10 ; 50 ) two opposing bodies ( 11 . 12 ; 51 . 52 ), each having one or two clamping wings ( 13 . 13 ' . 14 . 14 '; 53 . 54 ) and central support elements ( 15 . 15 ' . 16 . 16 ' ), characterized in that the two basic bodies ( 11 . 12 ; 51 . 52 ) in the region of the support elements ( 15 . 15 ' . 16 . 16 ' ) on at least one spring-mounted connecting element ( 17 ) are guided against one another displaceably between an open and a closed position, wherein the spring force is the holding device ( 10 ; 50 ) in an open position. Holding device according to claim 1, characterized in that the central support elements ( 15 . 15 ' . 16 . 16 ' ) two parallel webs per body ( 11 . 12 ) are. Holding device according to claim 1 or claim 2, characterized in that the support elements ( 15 . 15 ' . 16 . 16 ' ) Projections ( 19 ) and the at least one connecting element ( 17 ) Recesses for positive positioning of the at least one connecting element ( 17 ) exhibit. Holding device according to one of the preceding claims, characterized in that the at least one connecting element ( 17 ) has an I-shaped profile structure. Holding device according to one of the preceding claims, characterized in that for the resilient mounting of the at least one connecting element ( 17 ) at least one spring ( 18 ), in particular a helical spring, is provided. Holding device according to claim 5, characterized in that the at least one spring ( 18 ) in a recess, in particular a hole ( 42 ), in which at least one connecting element ( 17 ) is stored. Holding device according to one of the preceding claims, characterized in that the basic body ( 11 . 12 ; 51 . 52 ) at least one recess ( 41 ), in particular a bore, for receiving a fastening means ( 31 ) for fixing the holding device on a support element. Holding device according to one of the preceding claims, characterized in that the holding device has a double clamp ( 10 ). Holding device according to one of claims 1 to 7, characterized in that the holding device is an edge clamp ( 50 ). Holding device according to one of the preceding claims, characterized in that the clamping wings ( 13 . 13 ' . 14 . 14 '; 53 . 54 ) elastic profiles ( 21 . 21 ' . 22 . 22 ' ), preferably insertion grooves ( 23 . 23 ' . 24 . 24 ' ) on the inside of the clamping wings ( 13 . 13 ' . 14 . 14 '; 53 . 54 ) for fixing the elastic profiles ( 21 . 21 ' . 22 . 22 ' ) are provided.