FR2997169A1 - Carrier structure for carrying photovoltaic panel that is fixed on standard steel trough-type roof, has connection unit for allowing translation of carrier rails relative to support rails along longitudinal axis of carrier rails - Google Patents

Abstract

The structure (1) has carrier rails (10) fixed at top parts of ribs (3A) and comprising an upper wall and two wings that are downwardly directed towards the structure. Short support rails (20) comprise an upper wall and two downwardly directed wings. A connection unit is connected with an inner face of the wings of the carrier rails and allows translation of the carrier rails relative to the support rails along a longitudinal axis of the carrier rails. A tightening part comprises a hook that is articulated on a base. The base comprises multiple clevis pins.

Description

The invention relates to a support structure for photovoltaic panels on a steel tank. A steel roof is a roof made of steel sheets having longitudinal ribs to stiffen the sheets. An overlap of the transverse and longitudinal edges of the sheets gives the roof waterproofing. These sheets are sometimes provided under the underside of an insulating material. These sheets are laid and fixed on a wooden or steel frame. To keep them in place, screws or lag bolts are used which pass through the steel tank and anchor in the breakdown which constitutes a part of the frame. When installing photovoltaic panels, instead of replacing these sheets with panels with sealing problems, using a load-bearing structure fixed above the existing roof, the latter ensuring tightness. The supporting structure is often constituted by sections which are fixed on the roof at the level of the waves of the steel tank. These profiles are more or less complex to hang different fasteners for immobilizing the panels. These rails are fixed in abutment on the top of the wave which crosses it in the shape of an isosceles trapezium and the rail therefore has a similar shape with, in addition, ribs or grooves for the fasteners which will be used to maintain the panels. To reduce maintenance, aluminum rails and fasteners are used which do not need to be painted regularly to protect them from corrosion. Indeed this type of material is oxidized aluminum but does not have the same inconvenience as the steel that will not only oxidize but also corrode in time corrosion being the result of the action air and moisture. The oxidized layer of aluminum serves to protect the rail while for steel it corrodes faster and therefore the surfaces must be insulated with paint. There is a disadvantage to this combination steel tray and aluminum profile. This is the coefficient of thermal expansion which is of the order of 1.5 for steel and 2.5 for aluminum. It will therefore be understood that this may pose a problem with fasteners passing through the aluminum rail, the steel tray and anchored to a wooden structure. The problem depends on the length of the rail. The invention proposes to provide a solution. For this purpose, the invention relates to a support structure for photovoltaic panels intended to be fixed on a roof type steel pan having ribs aligned in the direction of the slope comprising carrier rails fixed to the top of the ribs, these carrier rails having an upper wall and two wings oriented downwards, this supporting structure being characterized in that it comprises short rail supports locally covering the top 20 of the rib and fixed by a member passing through said apex, said rail support comprising an upper wall two wings directed downwards, said wings laterally having one of the two fractions of a connecting means with the inner face of the wings of the carrying rail, this connecting means allowing only the translation of the carrier rail relative to the support of rail along the longitudinal axis of said carrier rail.

The invention will be better understood from the following description given by way of non-limiting example with reference to the drawing which represents: FIG 1: View of a set of panels being assembled FIG 2: view of FIG. 3 is an exploded view of FIG. 2. Referring to the drawing, there is shown a structure 1 carrier for photovoltaic panels 2 intended to be fixed on a roof type 3 tray. steel. This steel deck roof consists of sheets having ribs 3A 10 aligned in the direction of the slope of the roof. The underside of these sheets sometimes has a layer of insulation. The carrier structure comprises carrier rails fixed at the top of the ribs, these carrier rails having an upper wall 10A and two wings 10B, 10C facing downwards. In the manner of an inverted U, the carrier rail caps the rib. At least two carrier rails are required for a photovoltaic panel. Advantageously, this carrier structure comprises short rail supports 20 locally covering the top of the rib and fixed by an element 30 passing through said apex, this rail support having an upper wall 20A, two wings 20B, 20C directed downwards. , said wings laterally having a 40A of the two fractions 40A, 40B of a means 40 for connecting with the inner face of the flanges 10B, 10C of the carrier rail, this connecting means allowing only the translation of the carrier rail relative to the rail support along the longitudinal axis of said carrier rail.

Thus, the short rail supports will serve as an interface between the steel tray and the support rail which is slidable relative to each other. The carrier rail will therefore be associated with several rail supports and to be immobilized because of the slope, an axis 50 passes through a wing 20A of a rail support and a wing 10A of the carrier rail .This single lock will be sufficient for a rail carrier, the variation in length will be on either side of this axis 50 through. The connecting means 40 consists of: two faces 401, 402 facing each other forming stops which oppose a displacement of the carrier rail with respect to the rail support in the direction of the distance of the upper walls and in guiding faces also facing each other. As can be seen, the stop faces are located at the base of the wings of the rail support and the support rails. The installation of the carrier rail is done by elastic deformation of the wings of the rail. It is also seen that the upper wall of the rail support has vertical ribs giving off a space for the screw head which immobilizes said rail support on the frame. To account for these banks, the wings of the carrier rail comprises a first zone perpendicular to the upper wall which corresponds to the height of the bank and a second inclined zone which extends substantially parallel to the plane of the wings of the short support. A seal will be inserted between the top of the rib of the steel tray and the rail support. The holding of the panels on the rails is achieved by a fastener 70 comprising a foot 71 forming a clamp from overlapping the carrier rail and a clamping piece 72, said clamping piece being actuated by a screw 73. maneuvering. This maneuvering screw locks the foot of the binding at the same time. The gripper foot comprises a fixed jaw 71A provided by an inverted L-shaped section and a movable jaw 71B presented by an inverted L-shaped section whose L-branch does not form the jaw is hinged. A set of ribs 74 cooperating with grooves 75 contributes to the locking of the clamp on the longitudinal edges of the upper wall 10A of the carrier rail. The clamping piece is either a plate traversed by the operating screw or a hook 79 articulated on a seat 76. This seat 76 has several hinge pins 77 located at different levels to accommodate different thickness of panels.

In the example shown the so-called seat part comprises four grooves each constituting the female part of a joint, the male part is constituted by a ring located at the base of the hook. A shoulder 78 on the hook provides lateral contact with the panel. The actuating screw 73 is common to the actuation of the clamp and the clamping piece.

Claims (10)

REVENDICATIONS1. Carrier structure for photovoltaic panels intended to be fixed on a roof type steel tray having ribs 3A aligned in the direction of the slope comprising carrier rails 10 fixed to the top of the ribs, these carrier rails having an upper wall and two wings facing the bottom this carrier structure being characterized in that it comprises short rail supports 20 locally covering the top of the rib and fixed by a member passing through said top, this rail support having an upper wall 20A two wings 20B, 20C directed downwards, said wings having laterally one of the two fractions of a means 40 of connection with the inner face of the wings of the carrying rail this connecting means allowing only the translation of the carrier rail relative to the rail support along the axis longitudinal of said carrier rail. 2. Supporting structure according to claim 1 characterized in that the connecting means 40 comprises: - in two faces 401, 402 vis-à-vis forming stops opposing a displacement of the carrier rail relative to the rail support in the direction of the removal of the upper walls and in guiding faces also vis-à-vis. 3. Supporting structure according to claim 1 characterized in that the upper wall 20A of the rail support comprises vertical banks 25 clearing a space for the screw head which immobilizes said rail support on the frame. 4. Supporting structure according to claim 2 characterized in that the inner faces of the wings of the carrier rail and the outer faces of the rail support have stops 401, 402, said stops being located at the base of the wings. 5 bearing structure according to claim 4 characterized in that the wings which bear the stops elastically deform for the establishment of said stops. 6 bearing structure according to claim 1 characterized in that an axis 50 through a wing 20A of a rail support and a wing 10A of a carrier rail. 7 bearing structure according to claim 1 characterized in that the maintenance of the panels on the rails is formed by a fastener 70 comprising a foot 71 forming a clip from overlapping the carrier rail and a clamping piece 72, said clamping piece being actuated by a screw 73 maneuvering. 8 bearing structure according to claim 7 characterized in that the actuating screw 73 is common to the actuation of the clamp and the clamping piece. 9 bearing structure according to claim 7 or 8 characterized in that the clamping piece comprises a hook articulated on a seat. 10 bearing structure according to claim 9 characterized in that the seat 76 has several hinge pins 77 located at different levels to accommodate different thicknesses of panels25