DE202010016104U1 - Device for framing a photovoltaic module - Google Patents

Abstract

Device for framing a photovoltaic module (2), with a feed device, by means of which the photovoltaic module (2) can be introduced into a predetermined mounting position, in which the edges of the photovoltaic module (2) are exposed, and with a frame press (4 ), by means of which a frame is pressed onto the exposed edges of the photovoltaic module (2) in the mounting position, wherein the mounting position of the photovoltaic module is adjustable relative to the frame.

Description

The invention relates to a device for framing a photovoltaic module.

Photovoltaic modules are typically manufactured in automated manufacturing facilities. Since photovoltaic modules are usually used outdoors, especially on building roofs, these weather conditions, especially wind and storm are exposed. In order to give the photovoltaic modules the stability required for these applications, they are framed in frames. This enclosure takes place outside the production plant and is at least partially carried out manually. The frames are attached to the respective photovoltaic module with adhesive or adhesive tape.

The disadvantage here is that the attachment of the frame to the photovoltaic modules is partially inaccurate. In addition, it is disadvantageous that a relatively high expenditure of time is required for the enclosure of the photovoltaic modules. Another disadvantage is that an adjustable mounting position is not possible and also the frame is not always completely bonded to the photovoltaic module.

The invention has for its object to provide a device of the type mentioned, by means of which rational and reproducible a Rahmeneinfassung of photovoltaic modules can be performed.

To solve this problem, the features of claim 1 are provided. Advantageous embodiments and expedient developments of the invention are described in the subclaims.

The device according to the invention serves to framing a photovoltaic module with an adjustable mounting position and comprises a feed device by means of which the photovoltaic module can be introduced into a predetermined mounting position, in which the edges of the photovoltaic module are exposed. With a frame press a frame is pressed onto the exposed edges of the photovoltaic module in the predetermined mounting position.

With the device according to the invention, a fully automatic frame enclosure of photovoltaic modules is made possible. This allows photovoltaic modules to be framed reproducibly and with high precision, whereby the framing of the photovoltaic modules with the frames can be carried out quickly and efficiently.

Particularly advantageously, the frame press on pressing bars for receiving frame parts. The press beams are each pivotable by means of a pivot drive between a loading position and a working position. In the loading position, a pressing beam is equipped with frame parts. From the working position, the frame parts are guided by a pressing movement carried out with the pressing beam in a predetermined relative mounting position in the edge region of the photovoltaic module.

In the respective placement position, the frame parts are entered manually or by means of a loading unit in the press bars.

The press beams are exposed in the placement positions and are preferably pivoted upwards, so that the frame parts can be easily and quickly inserted into the press beams and fixed there.

Advantageously, in the placement position in the frame parts, which are mounted on the pressing beam, liquid adhesive entered.

With this liquid adhesive, the frame parts are fixed permanently there during the subsequent pressing against the edges of the photovoltaic module.

The use of liquid adhesive is advantageous because it is a solid connection between the frame and photovoltaic module is made especially in the hard to reach corners, resulting in additional stability and increased sealing quality. As a result, a tolerant edge post-processing (so-called edge trimming) is possible, which leads to an extended cost optimization.

In an advantageous embodiment, the photovoltaic module is aligned in the mounting position in the horizontal direction. To press the frame, the press bars perform pressing movements in the horizontal direction.

On the photovoltaic module oriented in a horizontal plane, the frame parts can be pressed symmetrically from all sides against the edges of the photovoltaic module. Due to the horizontal orientation of the photovoltaic module, the associated frame press can have a low overall height.

Advantageously, the feeding device has a vacuum table for receiving the photovoltaic module and a lifting device for lifting and lowering the vacuum module mounted in the photovoltaic module.

The thus formed supply device ensures an accurate and reproducible feeding each photovoltaic module in its predetermined mounting position, which is an essential Prerequisite for a faultless working of the frame press is.

In general, the device according to the invention can form a self-sufficient unit. In a particularly advantageous embodiment of the invention, the device according to the invention forms a production plant for a module integrated in photovoltaic module production lines.

As a result, the frame of the photovoltaic modules can be integrated into the manufacturing process of the photovoltaic modules, whereby a rational attachment of the frame is guaranteed to the photovoltaic modules. In particular, components of the production plant can be shared. In particular, a conveyor unit present in the production plant can be used to supply the photovoltaic modules to the device for framing the photovoltaic modules.

Particularly advantageously, the frame press forms a modular unit which can be placed on components of the production system.

The frame press and the feeder can then be flexibly integrated into the production line.

The invention will be explained below with reference to the drawings. Show it:

1 : Representation of an embodiment of the inventive device for framing photovoltaic modules with a photovoltaic module in a starting position.

2 : Device according to 1 with the photovoltaic module in a centering and fixing position.

3 : Device according to 1 with the photovoltaic module in a mounting position.

4 : Detail of the device according to 1 with a pressing beam in a loading position.

5 : Arrangement according to 4 with the pressing beam in a working position.

6 : Arrangement according to 4 when pressing a frame part to the photovoltaic module.

The 1 to 3 show a device 1 to frame a photovoltaic module 2 in different work phases. The device 1 is in a manufacturing plant for the automated production of photovoltaic modules 2 integrated. The photovoltaic modules to be framed 2 are fed via a conveyor unit, not shown, which is part of the manufacturing plant. 1 shows such a photovoltaic module 2 , which by means of the conveyor unit a vacuum table 3 is fed, which may also be part of the manufacturing plant. The vacuum table 3 is in a conveyor unit 3a stored. On the vacuum table 3 is the photovoltaic module 2 arranged lying in a horizontal plane.

The device 1 includes a frame press 4 for automated mounting and fixing to the edges of the photovoltaic module 2 encircling frame. The frame press 4 has several press beams 5 on, with each press bar 5 a rotary actuator 6 is assigned, by means of which the associated pressing beam 5 can be swiveled. In 1 , as well as in the 2 and 3 , are two pressing beams 5 shown. In the present case there are a total of four pressing bars 5 provided, each narrow side of the photovoltaic module 2 , which has a rectangular cross-section, a pressing beam 5 assigned.

By means of the rotary actuator 6 can be the associated press bar 5 be pivoted between a loading position and a working position. In the 1 to 3 are the pressed beams pivoted into the loading position 5 shown. In this placement position is the press bar 5 pivoted upwards, leaving a recording 7 for fixing a frame part forming the frame 8th freely accessible from above.

The frame parts 8th be in the shots 7 the pressing beam 5 entered manually and automatically with a placement unit and fixed there.

The device 1 further comprises a feeding device, which essentially consists of a lifting device 9 consists of raising and lowering the photovoltaic module 2 serves. The lifting device 9 has drive units that can be retracted and extended, allowing the photovoltaic module 2 can be raised or lowered. These include two lifting arms in the present case 10 ,

1 shows the device 1 Immediately after a photovoltaic module 2 the vacuum table 3 was fed. The photovoltaic module 2 lies in a horizontal plane in the vacuum table 3 , The press beams 5 of the photovoltaic modules are in their placement positions, that is they point upwards. At the reception 7 every press beam 5 is a frame part 8th appropriate. The lifting device 9 is not yet actuated, that is, the lifting device is in its lower end position.

2 shows the arrangement according to 1 after the photovoltaic module 2 with the vacuum table 3 by means of the lifting device 9 is raised in a centering and fixing position. In this position are already the edges of the photovoltaic module 2 to which the frame is to be attached, free. By means of a preferably automated horizontal alignment movement is the photovoltaic module 2 on the frame press 4 aligned, preferably such that all edges of the photovoltaic module 2 the same distance to the associated press beams 5 exhibit.

3 shows the arrangement according to 2 after the photovoltaic module 2 was raised to its predetermined mounting position, in which the attachment of the frame with the frame press 4 can be done. For inserting the photovoltaic module 2 becomes the vacuum table 3 who owns the photovoltaic module 2 receives, by means of the lifting device 9 retracted to its predetermined mounting position.

The 4 to 6 show as detail of in the 1 to 3 illustrated device 1 a press beam 5 the frame press 4 with the associated edge of the photovoltaic module 2 in the specified mounting position. 4 shows the press bar 5 in the loading position, in the press bar 5 so lies that the frame part 8th in the recording 7 freely accessible from above. In this mounting position liquid adhesive is filled into the frame part, with which the frame part 8th after pressing against the assigned edge of the photovoltaic module 2 is fixed there permanently.

How out 4 can be seen, are the press beams 5 and the associated rotary actuator 6 on an essay 11 stored. The frame press consisting of these components 4 thus forms a so-called stack-on module, which can be placed as a modular unit on an existing device and thus there also subsequently mounted or can be integrated to increase the production capacity.

The press beam 5 shows how out 4 further apparent, a main body 12 on where the recording 7 for the frame part 8th is arranged. The main body 12 is from a wave 13 or the like interspersed. The wave 13 forms an axis of rotation with respect to those of the pressing bars 5 is pivotable. To perform the pivoting movement of the press bar 5 with a joint rod 14 articulated with the rotary actuator 6 connected.

5 shows the arrangement according to 4 after the press beam 5 from the mounting position according to 4 was pivoted as a first end position in a working position as the second end position. In the working position is now the main body 12 of the press bar 5 aligned horizontally, so that the recording 7 with the frame part 8th the edge of the photovoltaic module 2 assigned. The press beam 5 is first pivoted into the working position, after in the loading position the frame part 8th at the reception 7 was fixed and the liquid adhesive in the frame part 8th was entered. Out of the working position can now use the press bar 5 the pressing process be carried out. For this leads the pressing beam 5 a horizontal lifting movement, the direction of the lifting movement in 5 marked with an arrow. To carry out the lifting movement, the essay 11 a not shown separately adjusting device by means of which the pressing beam 5 towards the edge of the photovoltaic module 2 can be performed to the frame part 8th at the edge of the photovoltaic module 2 to press.

6 shows the arrangement after performed pressing. The press beam 5 is like that to the photovoltaic module 2 introduced that the frame part 8th at the edge of the photovoltaic module 2 is pressed. All the press beams will be advantageous 5 at least approximately simultaneously actuated, so that all frame parts 8th at the same time on the photovoltaic module 2 be pressed. The frame parts 8th be using the liquid adhesive with the photovoltaic module 2 connected. Preferably, the seams between the frame parts 8th provided with liquid adhesive, so that the frame parts 8th connected to each other. The frame parts 8th then complement one another over the entire circumference of the photovoltaic module 2 encircling, closed frame.

LIST OF REFERENCE NUMBERS

1

contraption

2

Photovoltaic module

3

vacuum table

3a

delivery unit

4

frame Press

5

pressing bars

6

Rotary actuator

7

admission

8th

frame part

9

lifting device

10

lifting arm

11

essay

12

body

13

wave

14

joint rod

Claims (11)

Device for framing a photovoltaic module ( 2 ), with a feeding device, by means of which the photovoltaic module ( 2 ) in a predetermined mounting position can be introduced, in which the edges of the photovoltaic module ( 2 ), and with a frame press ( 4 ), by means of which a frame is placed on the exposed edges of the photovoltaic Module ( 2 ) is pressed in the mounting position, wherein the mounting position of the photovoltaic module is adjustable relative to the frame. Device according to claim 1, characterized in that the frame press ( 4 ) Press beams ( 5 ) for receiving frame parts ( 8th ) having. Device according to claim 2, characterized in that the press beams ( 5 ) each by means of a rotary actuator ( 6 ) are pivotable between a loading position and a working position, wherein in the loading position a pressing beam ( 5 ) with frame parts ( 8th ) and from the working position, the frame parts ( 8th ) by one with the pressing beam ( 5 ) carried out pressing movement against an edge of the photovoltaic module ( 2 ) are guided. Device according to claim 3, characterized in that the frame parts ( 8th ) manually or by means of a loading unit in the press bars ( 5 ). Device according to one of claims 3 or 4, characterized in that in the mounting position in the frame parts ( 8th ) attached to the press beam ( 5 ), liquid adhesive is entered, so that a complete bonding with the photovoltaic module is also in the corner areas. Apparatus according to claim 5, characterized in that given by the complete bonding of the corner regions an additional mechanical stability and increased sealing quality of the corner regions. Device according to one of claims 3 to 5, characterized in that the photovoltaic module ( 2 ) is aligned in the mounting position in the horizontal direction, and that for pressing the frame, the pressing bars ( 5 ) Perform pressing movements in a horizontal direction. Device according to one of claims 1 to 6, characterized in that the feeding device is a vacuum table ( 3 ) to record ( 7 ) of the photovoltaic module ( 2 ) and a lifting device ( 9 ) for lifting and lowering in the vacuum table ( 3 ) mounted photovoltaic module ( 2 ) having. Device according to one of claims 1 to 7, characterized in that this both in a manufacturing plant for photovoltaic module production ( 2 ) can be integrated as well as be operated independently. Apparatus according to claim 8, characterized in that these photovoltaic modules ( 2 ) can be fed from a conveyor unit of the manufacturing facility. Device according to one of claims 8 or 9, characterized in that the frame press ( 4 ) forms a modular unit which can be placed on components of the production plant.

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