FR2558577A1 - Method for fixing and assembling solar collectors. - Google Patents

Abstract

The invention relates to a particular method for assembling and fixing solar collectors. The constituent elements of the collector, that is to say essentially the glazing 5, the absorber and the insulation 3, are mounted on two longitudinal sections 1 shaped accordingly, whose length is greater than the length of the glazing, as well as two transverse sections 2 capable of being positioned by sliding on the longitudinal sections so that when two collectors are placed end to end, their longitudinal sections abut each other and make a hollow space between the transverse sections serving as a housing for the fluid connection pipes 8. Application to solar collectors integrated in roofing.

Description

The invention relates to a particular method of fixing and assembling several sensors integrated into the roof.

The solar collectors l-e most often used to date are designed to be placed outside, and are therefore exposed to the weather, either on the ground or on the terrace. These sensors must be fitted with a rear storyteller protection. In addition, it is difficult to hide, even on the terrace, the large area of collectors necessary for many heating systems, which is why many architects or design offices propose to insert the solar collectors into the. structure itself. BUILDINGS either on the roof, on the terrace, or in other places in the exterior skin of the building, for example in inclined façades specially designed for solar application.

When the sensors are of the integrated roofing type, they must therefore ensure the waterproofing function and therefore meet the quality, safety and durability criteria required by the standards in force in the building, in addition to the requirements required for a heating system component.

Some installations carried out to date use glazing profiles on which an attempt is made to adapt a system for fixing the absorber. Most often these adaptations cause thermal bridges very unfavorable to the performance of the sensors and do not allow, in a simple manner, to integrate the insulation of the rear face of the sensors. In other embodiments, the installation of collectors integrated into the building is done on demand and leads to installation prices which strongly penalize the use of solar collectors for heating buildings or the supply of hot water. sanitary.

The particular method of fixing and assembling several solar collectors, in accordance with the invention, advantageously solves these sealing problems at the same time as it facilitates the connections of fluid between collectors as well as the installation-removal and storage operations. 'interview.

According to the invention, the constituent elements of the sensor, that is to say essentially the glazing, the absorber and the insulator, are mounted on two longitudinal profiles shaped accordingly, the length of which is greater than the length of the glazing, thus that on two transverse profiles capable of being positioned by sliding on the longitudinal profiles, so that when two sensors are placed end to end, their longitudinal profiles abut and provide between the transverse profiles a hollow space serving as housing- to the fluid connection tubes.

According to a complementary characteristic of the invention, a joint cover adaptable to the junction of two neighboring sensors closes this housing and ensures sealing.

Other characteristics and advantages of the invention will emerge from the description which follows of an embodiment with reference to the appended drawings which represent - FIG. 1, a partially cut away perspective view.
of four solar collectors mounted on the roof.

- Figure 2, a cutaway and partial perspective view of
two neighboring sensors before assembly.

- Figure 3, a cross-sectional view of two contiguous sensors.

The sensors shown in the figures each include an absorber 4 formed by two thin metal plates between which the heat transfer fluid circulates, a transparent glazing 5 placed above the absorber and a layer of insulating material 3 placed under the absorber 1 and designed to limit heat loss. These three planar elements are kept spaced from each other by profiles in which they fit together and which form the framework of a solar collector.

The juxtaposition of several solar collectors as shown in Figure 1 is ensured advantageously, thanks to the new design and the original assembly of the profiles forming the frame of each collector.

The longitudinal profiles designated as a whole by the reference 1 border the long length of the sensor, in the direction of the roof slope while the transverse profiles designated as a whole by the reference 2, limit the width of the sensor.

We see in Figure 2 the shape of a longitudinal profile 1 including an upper flat TO limited by a vertical flange 11 serves to support the glazing 5. The absorber 4 is held below the glazing, in a slot of a waterproof cellular rubber seal 12, itself inserted in a longitudinal groove 13 provided on the profile 1, under the upper flat 10. Finally, the layer of insulating material 3 consists of a glass wool mattress, below 1 absorber 4, rests on a bottom plate 6, forming a cleanliness plate, itself inserted into a second groove 14 of the profile, also containing a seal 15.

The transverse section 2 visible in FIGS. 2 and 3 shows a general shape identical to that of the longitudinal section 1.

There is therefore also an upper flat 20, a longitudinal groove 23 and the seal 22 receiving the absorber, and at the lower part the second groove 24 receiving the bottom plate 6.

We have shown in Figure 2 two partial sensor ends slightly spaced from each other. Note that the longitudinal profiles 1 extend beyond the frame limits of each sensor, limits materialized by the transverse profiles 2 which can be positioned by sliding on them. This amounts to saying that the longitudinal sections are provided with a length slightly greater than the length of the glazing. This particularity finds its indent during the juxtaposition of two neighboring sensors.

In this case the longitudinal profiles 1 of two neighboring sensors coming into abutment, the transverse profiles 2 facing each other provide between them a closed chamber 7, serving as a space reserved for the hydraulic connections as it appears precisely in FIG. 3. These hydraulic connections two sensors of the same span are provided by bent copper tubes 8 which open out through an orifice 9 between the two plates constituting the absorber4.

The sensors are fixed to the frame by their frame using legs not shown.es or using long-itudinal spacers forniant -gabaritntre two neighboring sensors.

The transverse sealing between two sensors placed one above the other in the same span (fi-g. 3) is achieved by a joint cover 30 in stainless steel provided with rubber seals 31 in neoprene comprising a adhesive side. The joint cover 30 is held in place astride the two neighboring glass surfaces 5 by a screw-nut junction 32 with a hollow and sealed transverse gutter 33 bearing against the flat 20 and which - apart from its mechanical connection piece roll -. can be used to collect any water leaks from the. seal 31.

Finally, a cleanliness frame 34 attached to the lower part closes the chamber 7 over the entire length of the connection.

 The longitudinal seal between the sensors of two adjacent spans, that is to say in the direction of the slope of the roof, is ensured by a longitudinal joint cover 35 visible in FIG. 1, advantageously made in one piece, provided with two rubber lip seals coming to bear directly on the glazing of two adjacent sensors.

At the junction of the two sealing systems mentioned above, the longitudinal joint cover 35 passes over the ends of the transverse joint covers 30. A secondary seal is provided in the event of a leak at the level of the seal by the cover -joint 35, using a longitudinal trough not shown located under said joint cover and capable of collecting the water accidentally arriving through the gutters 33 in the lower part of the transverse junctions between sensors.

Claims (5)

Claims. 1. Method of fixing and assembling solar collectors  integrated into the roof of the type comprising a frame  killed by profiles serving to support the glazing, to absorb  butter and an insulator, and comprising fixing means  frame structure characterized on the one hand by  the frame of each sensor is made from two  longitudinal sections (1) of suitable shape for holding  glazing (5) of the absorber (4) and of the insulation (3) but  of a length greater than that of the glazing, and from  of two transve'-saux profiles (2 of 'åna7ogue sus'-  capable of being positioned by sliding on the pro  longitudinal yarns, leaving the profiles overflowing  longitudinal outside said transverse profiles  so that when putting two end to end  sensors of the same span, their longitudinal profiles  abut and spare between their profiles  transverse which are made f-ace, a hollow space (7) serving  housing the tubes (8) for connecting fluids, and  on the other hand in that particular means of etan  adapts to the junction of the plumb sensors  of these hollow spaces. 2. Method of fixing and assembly according to claim 1  characterized by the fact that the sections (1, 2) carry,  below a flat (10, 20) supporting the glazing (5),  a central longitudinal groove (13, 23) for fixing  of the absorber and another lower groove (14, 24)  for fixing the bottom plate (6) under the insulation (3) 3. Method of fixing and assembly according to the claims  1 and 2 characterized in that the transverse seal  between two sensors of the same span is made by a  metal joint cover (30) which is applied to glazing  two neighboring sensors via a seal (31)  and which is kept in abutment on said glazing by  a fixing engaged on the flats (20) of the profi  the transversal ones. 4. Method of fixing and assembly according to claim 3  characterized by the fact that the fixing taken on the  flats (20) of the transverse profiles is a gutter  hollow and waterproof (33). 5. Method of fixing and assembly according to the claims  1 and 2 characterized in that the longitudinal seal  between two sensors of two adjacent spans is made  by a one-piece longitudinal joint cover (35)  in direct contact with the glazing of two adjacent sensors.