DE202008008794U1 - Device for trimming photovoltaic modules - Google Patents

Abstract

Apparatus for automatically trimming a rectangular photovoltaic module (28) having two longitudinal sides and two transverse sides, consisting of two superimposed, equally sized, glass plates with an intermediate layer of a film overlapping the glass plates on all sides, having the following features:
a) a detection device (30) for detecting the front edge of a horizontally retracting module (28),
b) a device for positioning the rear edge of the module (28) in the starting position,
c) means for vertically adjusting (6) all cutters to the glass thickness of the respective module (28),
d) holding means for fixing the rear transverse side (38, 39, 40) of the module (28),
e) means for edge-precise cutting (7, 13) of the overlapping foil of the module (28) on the rear transverse side,
f) means for moving (11, 16) the module (28) into the region of two longitudinal cutting devices,
g) holding means for fixing the two longitudinal sides (38, 39, 40) of the module (28),
h) Medium ...

Description

The invention relates to the automatic trimming of a rectangular photovoltaic module ( 28 ) with two longitudinal sides and two transverse sides, consisting of two superimposed, equally sized, glass plates with an intermediate layer of a, the glass plates on all sides overlapping foil.

modern Glass facades are often not just a functional element of a Building but increasingly serve for solar power generation. Tailor-made solar modules enable the perfect fit Integration in building grid and profiles. Semitransparent solar cells, but also opaque solar cells with transparent areas, let Photovoltaic glazing appears flooded with light. The solar cells take over often the desired effect of the solar and glare protection.

The Production of such photovoltaic systems requires working conditions especially in the production of semiconductors and integrated electronic circuits are common. These so-called Clean room conditions make in the manufacture of photovoltaic systems In addition, the handling in terms of area large impact sensitive glass plates required.

to safe handling of such glass plates, it is necessary the in the manufacture of so-called photovoltaic modules between two glass plates, protruding at the edges, Cut the foil to size. In a photovoltaic Module is, viewed from the outside, the connection a substrate plate made of glass, a photovoltaic element and a glass plate as a cover glass by means of a, under heat gluing these glass plates, foil.

From the DE 10 2004 030 411 A1 is such a photovoltaic element, a solar module known as laminated safety glass.

task This publication is to solar modules with the properties of laminated safety glazing using foils Base of polyvinyl butyral (PVB).

• a) einer Glasscheibe,
• b) mindestens einer Solarzelleneinheit, die zwischen zwei auf PCB basierenden Folien angeordnet ist und
• c) einer rückwärtigen Abdeckung, durch gekennzeichnet, dass mindestens eine der auf PVB basierenden Folien eine Reißfestigkeit von mindestens 16 N/mm² aufweist.

This object is achieved by means of a solar module as a laminated safety glass comprising a laminate

• a) a glass pane,
• b) at least one solar cell unit disposed between two PCB-based films and
• c) a back cover, characterized in that at least one of the PVB based films has a tensile strength of at least 16 N / mm ² .

As such a film in which, for reasons of adjustment, to cut off any supernatant produced during production, is not apparent from this document.

From the DE 10 2005 027 964 A1 For example, a method and apparatus for removing the plastic film overhang in laminated glass panels has become known.

This Publication is based on the object, a method and a suitable one, in particular for its implementation, To provide apparatus that enable the plastic film supernatant mechanically and thus not only faster and cheaper but above all to remove more precisely.

to Solution to this problem is defined in claim 1 a method for removing the edge overhang of the plastic film sandwiched between the panes of a laminated glass plate, thereby characterized in that the Kunstofffolienüberstand means At least one rotating abrasive tool sharp removed becomes.

in the Claim 9 will further be an apparatus for removing the edge supernatant of Plastic film between the panes of a laminated glass plate, in particular for carrying out the method according to one of the claims 1 to 8 claimed. This device is characterized by a Bearing or supporting surface for the laminated glass plate, a transport means for linearly moving the laminated glass plate or along this surface, one at the edge of that surface fixedly mounted tool with a rotating abrasive disc, the with a peripheral surface a longitudinal edge of the laminated glass plate tangentially touched and a right angle to the transport device (in the direction of the transverse dimension of the laminated glass plate) movable Sled, carrying a second, similar tool.

A explanatory drawing is this publication not attached.

In essence, in the DE 10 2005 027 964 A1 proposed the use of an abrasive rotary tool for removing the Kunstofffilienüberstandes and the use of such a tool fixed to a longitudinal side and movable on a transverse side. The special technical requirements in the realization of this outlined measure in an automatic plant, technical boundary conditions to be considered and the requirements for fast Cycle times are not addressed in this document.

Of the inventive device is therefore the Task underlying the trimming of a photovoltaic Module, that is the separation of superfluous Plastic film, automatically controlled, reliable and with low cycle times to ensure low-cost on all sides.

These The object is achieved with a device according to claim 1.

The Device according to the invention is hereinafter described in more detail.

It show in detail:

1 : A perspective view of the device according to the invention

2 : A plan view of the area of the cutting devices

3 : A plan view of the area of the fixing devices

4 : A perspective view of a cutting head

5 : A perspective view of the area of the front transverse fixing device

6 : a perspective view of the right cutting head

1 shows a perspective view of the trimming device in the course of the manufacturing process of a photovoltaic module ( 28 ). The arrow on the right side indicates the direction of the inlet of a module to be edged ( 28 ) at. Accordingly, the arrow on the left side in the direction of the path for further processing of a module ( 28 ).

A photovoltaic module ( 28 ), when viewed from the outside, consists essentially of two equal, rectangular, superimposed, glass plates with an intermediate layer of one, the glass plates overlapping on all sides, foil. The purpose of the device according to the invention is to automatically and precisely separate the overlapping film at the edges of the glass plates cleanly and accurately. In the following, such a photovoltaic module ( 28 ) only module ( 28 ) to be named.

With ( 2 ) In this figure, the gantry supports for the front and the rear sheeting cross cutters are designated.

On the left side is the front track rail ( 4 ) and on the right side the rear track rail ( 9 ) of the corresponding cross cutter. It should be noted that the terms "front" or "rear" refer to the direction of movement of a module ( 28 ) during the trimming operation. "Front" thus refers to the 1 on the left side of the picture, "behind" on the right side of the picture. Likewise, the term "left" refers to the two slitter devices in the running direction of a module ( 28 ), on the side facing the viewer, so the front side of the trimming of the 1 , Accordingly, the term "right" means the rear side of the trimming device

With ( 12 ) is the right running rail of the slitter which extends along the direction of travel of a module ( 28 ), which is concealed in the center, extends on both sides. On the other side of the trimming device, the left running track ( 10 ) of the longitudinal cutting device.

The 2 shows a plan view of the area of the cutting devices.

The most outstanding features are in the 2 the, already in the description of the 1 mentioned, rear track rail ( 9 ) and the front track rail ( 4 ), both over the two longitudinal spars ( 8th ) are connected to the cross-cutting device. The rear track rail ( 9 ) carries the drive here ( 7 ), the slowing down of the rear cutting head ( 13 ) on this truss. Accordingly, the drive allows ( 5 ) the passage of the front cutting head ( 15 ) on the track rail ( 4 ). The from the description of the 1 known, left and right, rails ( 10 ) and ( 12 ) of the longitudinal cutting device are in the 2 , each with a double arrow in the middle, shown. This should already be noted at this point that these rails ( 10 . 12 ) in their parallel distance from one another, in accordance with the horizontal format of a module to be trimmed in each case ( 28 ), can be adjusted. (See also this 6 ) On the left running track ( 10 ) is the left cutting head ( 14 ) of the longitudinal cutting device, according to the running rail ( 12 ) the right cutting head ( 17 ). On the right side of the 2 is in the lower corner of the drive ( 11 ) for the, or the conveyor belts ( 16 ). The portal carrier ( 2 ) for the cross cutter is in the 2 also to recognize.

The sensors ( 30 ) for the detection of Position of a module ( 28 ) are in the area of the rear track rail ( 9 ). They not only allow the precise determination of the leading edge of an incoming module ( 28 ), but can also determine whether this edge is at right angles to the longitudinal direction of the trimming device or deviates from it. An increase in the number and / or spacing of such sensors ( 30 ) increases the accuracy of such a measurement.

Next, the sensors ( 30 ) the position of the rear edge of a module ( 28 ) to capture. From the delay difference of the detection of these two edges, the length of the module ( 28 ) be calculated. However, other sensors known to those skilled in the art may also be used for this purpose.

In the 3 is a plan view of the range of fixing devices shown. With ( 29 ) and ( 42 ) Here are the opposite drives for the right and the left longitudinal cutting device to recognize.

The carriers ( 18 ), marked twice on the left as well as on the right, for the upper module fixing device can also be seen in this view. They are marked with the same number for the cross cutters and the slitters since they each have the same effect, namely the module ( 28 ) on the respective pages via the, not here recognizable, pressure means ( 19 ) to press the pad. In this way it should be prevented that the two glass plates of a module during the separation process of the intermediate film mutually displaced. For a closer view of a fixing is on the 5 directed. In this presentation of the 3 are the left transverse drive ( 32 ) of the longitudinal cutting device and the right transverse displacement drive ( 31 ) of the longitudinal cutting device in the middle region of the trimming device, in which a module ( 28 ) is clearly visible. As with the description of the 2 noticed, these serve to automatically adjust the distance between the two longitudinal cutting devices to the width of the respective module.

With ( 6 ), the drive for the simultaneous vertical movement of the cross cutter and the longitudinal cutter is called. This is necessary to adapt the cutting process to different glass thicknesses. This process can also be automatic. The measurement of the respective glass thicknesses of the modules ( 28 ) via sensors whose selection is left to the expert and are not shown separately for reasons of clarity. The output signals of these sensors are available to the control program.

In the 4 is the perspective view of one of the four total, for all four sides of a module ( 28 ), cutting heads are shown.

The drive ( 3 ) causes the rotation of the blade ( 21 ) and forces together with the cutting wheel ( 22 ) and the propulsion of the cutting head, the separation of the respective overlapping film. The casters ( 24 ) for the front film guide in conjunction with the rear film guide ( 20 ) the stop for a stable, in its distance to the glass edges of a module ( 28 ) defined, concerns a cutting head during the cutting process. To ensure the insertion of a film into the working area of a cutting head before starting a cutting operation, the casters ( 24 ) for the front film guide and the rollers ( 20 ) for the rear film guide unfolded together. This process is performed by the drive cylinder ( 36 ) the lower bearing ( 23 ) for the front film guide, which mechanically with the lower roller ( 20 ), can move vertically. The outer edge of a corresponding foil is with ( 25 ), the fixed upper bearing of the film guide has the number ( 35 ) on. The pressure cylinder ( 34 ) by means of the displacement device ( 33 ) for a specific contact pressure of the cutting head to a module ( 28 ).

For determining the exact position of a cutting head for the control program of the trimming device is a sensor ( 37 ). Its output signals are recorded and evaluated for the control program of the trimming system.

In the 5 a perspective view is shown by way of example from the region of the front transverse fixing device. At the front track rail ( 4 ) is the front cutting head ( 13 ) in one position, or at a time, since the carrier ( 18 ) of the upper fixing device from the upper drive ( 39 ) by means of the pressure means ( 19 ) on a module ( 28 ), the module ( 28 ) from below via the lower drive ( 40 ) and the lower fixing device ( 38 ) is pushed upwards.

In the 6 is an extension of the conveyor belt ( 16 ) by a short conveyor belt ( 41 ). This resulting gap in the conveyor belt ( 16 ) allows the "passing through" of the example shown right cutting head ( 17 ) through the conveyor belt ( 16 ) with a necessary adjustment of the right running track ( 12 ) of the longitudinal cutting device in the direction of the double arrow shown. Such an adjustment is necessary in a conversion of the trimming device to another format (see also the 2 ).

Around to ensure a clean separation of the film and to prevent tearing or tearing is the propulsion of the cutting heads before the termination of the Cutting process slowed down by a certain amount. Results of preliminary tests with different glass thicknesses and different ones Types of films and film thicknesses are used as operating parameters in the Control program of the system. Likewise, the program is able to different formats of modules by means of appropriate sensors to detect and by automatic adjustment of the slitter and calculated values on the changed feed paths and Feed rates of the cutting heads automatically to react

1

base frame

2

straddle carrier for foil cross cutting device

3

Cutting head drive (Bladed disk)

4

front Track rail (sheeter)

5

drive for the front cross-cutting device

6

drive for the vertical movement of the cross-cutting devices and the slitting devices

7

drive for the rear cross cutter

8th

longerons the cross cutter

9

rear Track rail (sheeter)

10

left Running rail of the longitudinal cutting device

11

drive for treadmill

12

right Running rail of the longitudinal cutting device

13

rear Cutting head (transverse direction)

14

left Cutting head (longitudinal direction)

15

front Cutting head (transverse direction)

16

conveyor belt for the photovoltaic module

17

right Cutting head (longitudinal direction)

18

upper Module fixing device (carrier)

19

upper Module fixing device (pressure means)

20

rear film guide

21

diameter disc

22

cutting wheel

23

lower Bearings for the front film guide (lowerable)

24

casters for the front film guide

25

Foil outer edge

26

drive axle for conveyor belt

27

Cutting head carriage

28

photovoltaic module

29

drive for right longitudinal cutting device

30

sensors for the positioning of the photovoltaic module

 31

right Transverse adjustment drive (longitudinal cutting device)

 32

left Transverse adjustment drive (longitudinal cutting device)

 33

shifter for cutting head (pressure rollers)

 34

pressure cylinder for cutting head to the photovoltaic module

 35

upper Bearing of the foil guide (fixed)

36

drive cylinder for the sub-storage of the film guide

 37

sensor for cutting head position

 38

lower Fixing device for the photovoltaic module

 39

upper Drive for the fixing device of the photovoltaic module

 40

lower Drive for the fixing device of the photovoltaic module

 41

short conveyor belt

 42

drive for left longitudinal cutting device

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 102004030411 A1 [0005]
• - DE 102005027964 A1 [0009, 0014]

Claims (4)

Device for automatically trimming a rectangular photovoltaic module ( 28 ) with two longitudinal sides and two transverse sides, consisting of two superimposed, equal size, glass plates with an intermediate layer of a, the glass plates overlapping on all sides of the film, having the following features: a) a detection device ( 30 ) for detecting the leading edge of a horizontally retractable module ( 28 ), b) a device for positioning the rear edge of the module ( 28 ) in the starting position, c) means for vertical adjustment ( 6 ) of all cutting devices to the glass thickness of the respective module ( 28 ), d) retaining means for fixing the rear transverse side ( 38 . 39 . 40 ) of the module ( 28 ), e) means for edge-precise cutting ( 7 . 13 ) of the overlapping foil of the module ( 28 ) on the rear transverse side, f) means of proceeding ( 11 . 16 ) of the module ( 28 ) in the region of two longitudinal cutting devices, g) holding means for fixing the two longitudinal sides ( 38 . 39 . 40 ) of the module ( 28 ), h) means for edge-precise simultaneous truncation ( 42 . 14 . 29 . 17 ) of the overlapping foil of the module ( 28 ) on the two long sides i) Means of proceeding ( 11 . 16 ) of the module ( 28 ) in the area of a front cross-cutting device, j) holding means for fixing the front transverse side ( 38 . 39 . 40 ) of the module ( 28 ), k) means for edge-precise cutting ( 5 . 15 ) of the overlapping foil of the module ( 28 ) on the front transverse side, l) means of proceeding ( 11 . 16 ) of the trimmed module for further processing. Device according to claim 1, characterized in that devices ( 31 . 32 ) for adapting the slitter to different transverse formats of modules ( 28 ) are provided Device according to Claim 1 or 2, characterized that defines the cutting heads before finishing the cutting process can be slowed down. Device according to one of claims 1 to 3, characterized in that a generated from experience Memory in the presence of different types of modules and Slides are used by varying such differences Sensors are detected and during the process of trimming be taken into account.