GR1009214B - A system for the direct assembly, storage and securing of the glass pane of a solar collector having a deep drawn frame - Google Patents

Abstract

Novelty: a system for the direct assembly, storage and securing of the glass pane of a solar collector furnished with a deep drawn frame is disclosed. Constitution: the frame 1 terminates with rims 2 which have at the level of their contact with the glass pane the projection 3 while continuing upwards in order to create a nest 4 having the terminal end 11; this arrangement allows, in one hand and in combination with the profiles (7,8) fastened by snap action on the rims 2, the storage of the solar collector and the simultaneous drying of the sealing elastomer 10 being placed within the above properly-configurated nest 4 and, on the other hand, the confinement of the glass pane inside said nest even though there will be detachment of the elastomer occurred by the passage of time either from the glass pane 5 or the rims 2.

Description

DIRECT ASSEMBLY SYSTEM OF STORAGE AND SECURITY GLASS PANEL OF SOLAR COLLECTOR WITH CASE

DEEP CONVEYANCE

DESCRIPTION

Technical field

The present invention relates to a system that allows the direct assembly and storage of a solar panel with a deep cavity case, which is characterized by the fact that it is based on the appropriate configuration of the lips of the formwork case, in order for the glass panel of the solar panel to be immediately secured without the addition of other components and materials such as aluminum profiles or double-sided tapes, in combination with corresponding locking profiles that snap together, so as to achieve the immediate transport and storage of the finished product, without the need to interrupt its production in order to dry the elastomeric adhesive used to fasten the glazing.

Technological background

The technology known up to now for the manufacture of casings for encasing deep cavity solar collectors, does not have any similar product to show.

In particular, until today, in order to assemble and seal the glass panel on the solar panel casing, aluminum profiles are used in order to achieve tightening of the glass panel and the sealing gasket on the frame, which are riveted to it or welded to it. In particular, the surface of the end - lips of the casing is usually flat and the glass panel is placed inside an elastic gasket, it is placed together with it on the lips of the casing and then it is clamped - it is assembled to it with the help of suitable aluminum profiles. This kind of technique is described indicatively in the patent GR 1006318 as well as in the patent DE 10226069.

Also known is the technique in which appropriate rubber profiles are used that are combined with corresponding metal profiles in order to prevent the entry of moisture into the boat.

The above techniques have the following disadvantages: - More components are used while drilling holes on the surface of the casing to fix them, which increases production time and cost and creates hot spots for moisture to enter the solar collector.

- For welding and securing the glass panel on the collector, two profiles are used. One which is nailed to the body of the formwork box to form the glass panel slot, in which a rubber profile is placed and a second one which is placed on top and secures the glass panel to the frame. as in the case of Diploma GR1006318.

In the event that elastomer (silicone) is also used for fixing the glass panel, since it must be free in the air to dry, in order to complete the production of the solar panel and for it to be ready for storage, at least 24 to 48 hours pass , with the result that on the one hand the production process is interrupted and on the other hand there is a need to find additional space within the production area for depositing the unfinished collectors, which are known to have large dimensions and require a large surface area for their even temporary storage.

Also known is the technique where a suitable configuration is created on the edge of the boat and with the help of double-sided tape the glass panel is held. And in this case, however, there is the risk of detachment of the glass panel over time, with the risk of its destruction and also causing injuries.

All the above disadvantages pushed me to find a solution, the result of which is the subject of this description.

With the system I invented, all the above disadvantages of the solar panel assembly techniques known to date are eliminated. Because due to the appropriate configuration of the lips of the solar collector casing and the creation of a nest, the secure fixing of the glass panel is achieved, without the use of double-sided tape and at the same time its complete sealing, while with the use of the appropriate holding profiles, the product can produced without interrupting its production process and stored immediately, since the adjustment of the profiles allows air circulation inside it and the drying of the silicone. In addition, the profiles used protect the elastomer during storage and are not a fastening element of the glazing.

Disclosure of Invention

In order to make my invention understandable to those skilled in the art, I refer to the attached drawings, which illustrate a specific industrial application thereof.

In particular, figure 1 shows a section of the invented configuration of the rim, with the glass panel placed on it, Figure 2 shows a detail of the molded protrusion of the rim.

Figure 3 shows the retention profiles.

Figure 4 shows a cross-section of the lip configuration with the glazing and retaining profiles.

Figure 5 shows an alternative implementation of the invention where a single instead of two retaining profiles is used.

Figure 6 shows a cross-section of the configuration of the rim with the glass panel and single retaining profile.

Then I proceed to a numbering of the main parts of the invented machine, with reference to a corresponding numbering of these parts in the attached drawings, which are shown in an indicative descriptive illustration, without scale but simply in proportion to the sizes of the parts.

According to the proposed illustrative application of the invention, the casement (1) encasing the solar collector is deeply recessed and ends in edges (2) integral with the casement, which at the level of the contact surface of the glass panel have a projection (3) and subsequently they continue upwards creating a perimeter nest (4) with an end (11), for the entry and retention of the glass panel (5). In this way, during the assembly of the solar collector, the glass panel (5) is placed, which presses on the ridge (3) and due to its weight, fits completely on it without leaving any gaps. Then the nest (4) is filled with the elastomeric adhesive (10) (e.g. silicone), which also enters the gap (6) created between the projection (3) and the lower surface of the glass panel (5) and the stabilizes perfectly, due to the large welding surface created due to the configuration of the protrusion (3) that the lips (2) have. At the same time, due to the fact that the nest (4) is completely filled by the elastomeric adhesive (10), it completely seals the solar collector into which the slightest moisture cannot enter, while at the same time the protrusion (3) is a barrier for the elastomer ( 10) and does not allow it to enter the inside of the case. In this way, even if the elastomer (10) detaches over time either from the lips (2) or from the glass panel (5) it remains inside the nest (4), due to its special configuration, at the same time trapping the glass panel (5), which also cannot come out of it while remaining stable. In this way we achieve maximum security in order not to create any accident or damage to the system.

Then, in order to avoid the need for the collectors to remain in the production area until the elastomer (10) dries (24 to 48 hours), the profiles (7) & (8) are used, which are made of plastic or other suitable material , they cover the upper and lower perimeter of the edges (2) of the casing and have a suitable configuration in order to snap together, without having to be screwed or fixed in any way to the edges (2) of the casing, creating at the same time a ventilation channel (9) around the place where the silicone is placed above and below the lips (2). In this way, the solar panels can be completely manufactured and stored immediately, since by adjusting the profiles (7) and (8) on the one hand, the glass panel is fully held on the frame and on the other hand, sufficient air is channeled in order to become possible to dry the elastomer (10). Alternatively, instead of the profiles (7) and (8), a single profile (12) is used, which covers the upper and lower edges (2) of the casing in the same way (see figure 5 and 6).

It is noted that the above description is an indicative application of the invention and is not limited to the above-mentioned example, while its achievement is possible with similar ways and methods.

Claims (5)

1. A direct assembly system for storing and securing a solar collector glass panel with a deep recess case, characterized in that the case (1) terminates in lips (2) which at the level of the contact surface of the glass panel have a projection (3) and in then they continue upwards creating a perimeter nest (4) with an end (11), for the entry and retention of the glass panel (5), a device which, in combination with the profiles (7) and (8), which snap onto the of lips (2) one above and the other below them, on the one hand it allows the elastomer (10) placed in the nest (4) to dry parallel to the storage of the solar collector and on the other hand it locks the glass panel (5) on the nest ( 4), due to its configuration, even if the elastomer (10) detaches over time either from the glass panel (5) or from the lips (2). 2. A direct assembly system for storage and securing of a solar collector glass panel with a deep recess case, according to claim 1 characterized in that the presence of the projection (3) of the lips (2) allows the glass panel (5) to rest with all its weight and to apply completely on it, without leaving gaps. 3. A direct assembly system for storing and securing solar panel glass with a deep recess case, according to claim 1 characterized in that, after the glass panel (5) is installed, the nest (4) is filled with the elastomeric adhesive (10), which it also enters the gap (6) created between the projection (3) and the lower surface of the glass pane (5) and stabilizes and completely seals it, due to the large welding surface created due to the configuration of the projection (3) that the lips have (2), which at the same time is a barrier for the elastomer (10) and does not allow it to enter the inside of the casing (1). 4. A direct assembly storage and locking system of a solar panel with a deep recess case, according to claim 1 characterized in that the profiles (7) and (8) are made of plastic or other suitable material, they cover the perimeter above and below the lips (2) of the case and have a suitable configuration in order to snap together, without having to be screwed or fixed in any way to them, creating at the same time ventilation channels (9) above and below the lips (2) at the point where the elastomer (10) is placed, allowing it to dry during storage of the solar collector. 5. A direct assembly system for storage and securing of a solar panel with a deep recess case according to claims 1 to 4 characterized in that instead of the profiles (7) and (8) a single profile (12) is used, which covers in the same way around the top and bottom edges (2) of the casing