FR2481774A1 - SUSPENSION GASKET FOR FILLING SURFACES - Google Patents

Abstract

The invention relates to a connection piece (1) which is intended to form an elastic connection between an opening, enclosed by a rigid delimitation, and at least two closure surfaces (4, 5). The connection piece is characterised in that it is an apron (8) which adapts elastically to the outline of the delimitation and forms the side walls of various cavities which form between the various closure surfaces (4, 5), and in that the elastic securing means of the connection piece is secured in the opening, inter alia, by the closure surface. The connection piece is suitable for covering openings and for use in the case of solar collectors.

Description

 The invention relates to a suspension joint intended to ensure the elastic connection between an orifice delimited by a rigid frame and between at least two closure surfaces.

More precisely b the suspension joint according to the invention makes it possible to fulfill multiple functions, namely elastic maintenance of at least two sealing surfaces, possible sealing of the various elastic connections, introduction and recovery of a heat transfer fluid. The seal according to the invention and its sealing surfaces can find applications in closing the opening, for example in roofs, walls, or generally openings or manholes arranged in a wall, with the aim of to achieve thermal insulation, sound insulation, sealing, to facilitate disassembly, or to compensate for the effects of thermal expansion. The seal and the sealing surfaces can also find an advantageous application in the production of solar collectors and of 'heat exchanger.

 In general, the obturation of an orifice delimited by a frame, or the production of a box with the aim of making it a solar collector, faces problems of expansion to which are superimposed problems of tightness due to significant temperature variations. Furthermore, the mounting of the shutter surfaces, which in general are glass panes, requires long and delicate handling operations, which are therefore expensive.

 One of the aims of the present invention is to provide a suspension joint which compensates for the effects of the expansion caused by large temperature variations.

 Another object of the present invention is to provide a suspension joint which facilitates the mounting of the various closure surfaces.

 Another object of the present invention is to provide a suspension joint which is capable of sealing with the frame and the various surfaces which it is intended to receive.

 Other objects of the present invention will appear in the description which follows, which is however given only for information, and which is not intended to limit the present invention.

 The suspension joint intended to ensure the elastic connection between an orifice delimited by a rigid frame and at least two sealing surfaces is characterized by the fact that it has a skirt elastically fitting the perimeter of the frame, and constituting the side walls different volumes between the different sealing surfaces, and that the elastic retention of the seal in the orifice is ensured inter alia by the said sealing surfaces.

 The invention will be better understood if reference is made to the description below and to the accompanying drawings which form an integral part thereof.

Figures 1 to 4 are schematic sectional views of non-limiting embodiments of a suspension joint according to the present invention
Figures 5 and 6 schematically represent the relief of sealing surfaces in the non-limiting case where the seal allows the realization of a solai-re sensor.

Figures 7 and 10 are schematic sectional views of a suspension joint and sealing surfaces in applications not limited to solar collectors
Figures 8 and 9 are schematic views, in section, partial of the wall of a suspension joint in non-limiting implementations.

In FIG. 1, a seal 1 provides an elastic connection between an orifice 2, delimited by a rigid frame 3 and two shutter surfaces, respectively 4 and 5. This number of shutter surfaces is not limiting, and n 'is given for information only.

 In the case of FIG. 1, the orifice 2 was produced in a wall 6. This case however is not limiting, in fact, the orifice can be produced from a support 7, as in the figure 2, or by a box. or any closed belt whose opening is delimited by a frame 3.

 Referring to FIGS. 1 to 4, the joint is first of all constituted by a skirt 8 which matches the internal shape of the frame 3.

This skirt 8 also defines the side walls of the volumes 9 to 15 respectively located between the different closure plates. The seal also includes means for holding it at the periphery of the frame. These means can be constituted for example by a flange 16 resting on this periphery, and possibly be supplemented with a sealing lip 17, or several lips 18 and 19 as in the case of FIG. 3. may also be a lip 20 oriented towards the outside of the periphery of the joint, which rests on the periphery of the frame. Preferably, this leprosy will also provide a sealing function at the connection between the frame and the joint.

The holding means may be of any other form suitable for the frame on which the seal is intended to be mounted. In the example of Figure 2, the support 7 has a flange 21, and the seal has on its periphery a notch 22 adapted to the shape of the support 21. Preferably, this notch has a face 23 acting as a face of support, and a part 24 serving as a sealing lip.

In all cases, depending on the shape of the frame on which the seal is intended to be mounted, and depending on the function it is intended to fulfill, these means of holding on the periphery of the frame can be easily determined by man. art. Preferably, however, since the material of which the seal is made is a flexible material, the means comprise support means such as a flange or a support face, possibly supplemented by sealing means, and clipping means, which can also be means of sealing this compound, for example by a lip.

 Depending on the shape of the periphery of the joint, and the holding means which it presents, those skilled in the art will easily determine how to mount the joint in the frame so that it hugs the perimeter thereof.

 According to the invention, the seal comprises on the internal wall 25 of its skirt other means which make it possible to suspend a sealing surface, or to maintain it. Preferably, the closure surface (s) which are located in the orifice 2, or on the inner side 26 thereof will be suspended, while the closure surface (s) located on the outer side 27 of the orifice will be suspended applied and maintained. In the example of Figure 1, the shutter surface 4 is maintained, and the shutter surface 5 is suspended.

 The suspension means consist for example of a flange 28 oriented towards the inside of the skirt of the joint, which has a bearing face 29 on which the periphery of the suspended closure surface 5 rests. Naturally, this surface d the suspended shutter and the rim 28 have suitable dimensions so that the surface can be introduced inside the skirt and come to be positioned on the rim.

The holding means consist, for example, of a groove 30 oriented substantially parallel to the maintained sealing surface, the opening of which is oriented towards the inside of the zone defined by the skirt. The shutter surface maintained 4, and the groove 30 have suitable dimensions, and which can be easily determined by one skilled in the art, so that the maintenance of the shutter surface can be obtained by introduction from its periphery inside the groove 30. Preferably, however, the dimensions of the maintained surface 4 will be slightly greater than the dimensions of the orifice 2.

 Referring to Figure 1, it appears that the presence of the sealing surfaces 4 and 5, or generally the positioning of all the sealing surfaces inside the skirt, lock the joint on the periphery of the frame. On the other hand, since the material that makes up the seal is a flexible and elastic material, the expansion or deformation of the frame, or of the sealing surfaces will result in an elastic deformation of the seal, which will prevent deterioration or the breakage of one of the elements.

 The positioning of the closure surfaces on the edges or in the grooves can be ensured and reinforced by bonding the closure surfaces on at least one of the faces of the edges or the grooves.

 The nature of the sealing surfaces depends on the use they are intended to fill in combination with the joint. They may for example be made of glass or transparent or colored plastic. These sealing surfaces allow for example to produce double glazing, for the purpose of thermal or sound insulation.

All the seals and the sealing surfaces can also be inclined, which makes it possible for example to make a window in a roof. The number of sealing surfaces is however not limiting. Furthermore, these surfaces can be parallel to each other or inclined with respect to each other.

By way of example, FIG. 4 shows the adaptation of three sealing surfaces, 31, 32 and 33 to a joint 1 according to the invention mounted in the orifice of a wall 6. The surface 31 is inclined by relative to surfaces 32 and 33, which allows for example in the application to a solar collector to adapt. its position relative to the declination of the sun, or to its position. In an alternative embodiment of the seal according to the invention, the wall of the skirt has a form of bellows, in its upper part, which makes it possible to adjust and modify the inclination of the external sealing surface 31. thus possible to tune the device composed by the joint and the sealing surface to the slope of a roof, or
give it a variable orientation depending on the position of the sun in the case of a solar collector.

 FIG. 3 represents another variant of the seal according to the invention. The latter carries two shutter surfaces 4 and 5 which, for example, form double glazing. In its lower part, it carries another sealing surface 34, which may for example be a heat-insulating wall. The seal can also have a sealing surface 35, the role of this surface 35 is to reinforce the structure of the seal at the edges 28 which carry the surface 34.

 This surface 35 however has other advantageous and interesting characteristics. Indeed, it defines with the internal wall 25 of the skirt a cavity 12 perfectly sealed, since the assembly was made in one piece, for example by molding.

This cavity is therefore able to 'contain or' convey a killer heat transfer fluid. Furthermore, in the case where the material is made of black or dark colored elastomer, the surface 35 may advantageously constitute the absorption surface of a solar collector. Preferably, the tomary clash will have poor thermal conductivity, which will facilitate absorption. The shutter surface 34 which is a heat insulating surface also promotes the absorption of solar energy at the surface 35. The presence of this surface, however, is optional.

 Among the currently existing solar collectors, those of the trickle type can advantageously be produced with the seal according to the present invention. In this type of sensor, a film of water circulates and flows by gravity over the absorbent surface of the sensor. In order to control the flow, and to increase the efficiency of the heat exchanges, the surface 35 has a relief, the effects of which are opposed to the flow of the heat transfer fluid by gravity.

These effects are based on the principles of thermo-siphon, capillarite, communicating vessels and / or surface tension. they slow down, regulate and may sort out the flow of the heat transfer fluid, which allows. heat exchange with better efficiency.

 By way of example, FIGS. 5 and 6 represent two geometric reliefs that the surface 35 can have in the context of a trickling solar collector. FIG. 5 represents rafters 36, arranged in lines perpendicular to the slope, the rafters of the different consecutive lines being arranged in staggered rows. With respect to the flow of the fluid, they are oriented so as to constitute a plurality of projecting dams, forming a plurality of retention basins.

The height of the rafter increases from its respective ends 37 and 38 to its top 39 so as to compensate for the slope of the solar collector.

 This is visible from Figure 7 which shows schematically in section a device similar to that of Figure 3 where the surface 35 has a herringbone relief. The flow of the fluid is shown diagrammatically in FIG. 5 by a dotted line 40. The chevron, identified by the reference 41 retains the heat transfer fluid, and the zone 42 included in the opening of the V constitutes a retention basin. When the fluid height is sufficient, it flows at the two ends of the rafter and feeds the two basins 43 and 44 respectively formed by the two rafters 45 and 46> located in staggered rows at a level directly below that of the rafter 41 .

The flow from one basin to the other therefore takes place by gravity, and the principle of the thermo-siphon applies in each retention basin.

A fil'et of incoming fluid is therefore divided into two threads of outgoing fluid, which improves the regularity of the distribution of the heat transfer fluid on the absorption surface and gives better wetting of this surface.

 Another relief is shown in Figure 6, which has double chevrons 47 also staggered. As in the previous case, the rafters constitute dams which form retention basins. To pass for example from the basin 48 to the basin 49, the fluid is forced to go up along the wall 50 of the double chevron 51 by capillary action. Depending on the opening of the rafters and their height, the flow can also be done according to the principle of communicating vases.

Other geometric forms of dams could be adopted in order to control runoff and increase the heat exchange between the absorption surface and the heat transfer fluid. This relief can be produced in the mass of the surface 35 during the manufacture of the entire seal, for example by molding or by making up in the case of an elastomer. However, the surface 35 and its relief can be replaced by an independent sealing surface having this relief, which would be suspended from the joint in the same way as the other sealing surfaces. In this case, the surface 35 which has become independent can be produced any suitable material, for example could be metallic;
Naturally, the shutter surfaces located above the absorption surface are in the case of a solar collector of any suitable nature, and capable of promoting the greenhouse effect. A heat-insulating sealing surface such as the surface 34 can be placed under the sealing surface playing the role of absorption surface, so as to promote this absorption phenomenon
More particularly in the case of a solar collector, the wall of the skirt may have at least locally means; facilitating the introduction and recovery of the heat transfer fluid. These means can consist of an orifice passing through the thickness of the skirt which places the interior of the volume of the sensor in communication or circulates the fluid with for example inlet or outlet pipes. flow of heat transfer fluid. Other more elaborate means are shown diagrammatically in FIG. 8, and are particularly suitable for a trickle sensor.

 A conduit 52 is made in the thickness of the wall of the skirt, preferably at least in its part located at the top of the slope.

This duct is connected to the outside by an orifice 53 opening into another duct, or capable of receiving an inlet pipe. The conduit 52 also opens into the sensor area or circulates the heat transfer fluid through a plurality of orifices 55 acting as nozzles. Preferably, these orifices will be positioned as a function of the relief of the runoff surface shown diagrammatically at 56.

 At least at the bottom of the slope of this surface, the rim 57 which carries it has a gutter shape which allows the recovery of the heat transfer fluid after runoff. An orifice 58 connects the interior of the gutter with, for example, a pipe or an external pipe. In FIG. 8, for reasons of clarity, the duct 52 and the gutter 57 are shown on the same wall.

 In the case where the absorption surface 35 is an internal part of the joint, the gutter allowing the fluid to be recovered after runoff can be integrated into the relief of the surface.

FIG. 9 represents a variant of the conduit 52 in the ap-
application to a pressurized flow solar collector In a mode
advantageous embodiment, the conduit 52 describes the periphery of the skirt
8. It can be used in its lower part to supply heat transfer fluid to the pipes or coils of the absorber, which we have diagram
tiséeen 60, and, in its upper part, to collect the fluid for
evacuate it. Just close with two partitions or two caps ap
owns this conduit 52 in order to isolate its supply part
and its discharge part. In the embodiment represented in
Figure 9, the pipes or coils of the absorber lead to the in
inside of duct 52, respectively in the supply section
and in the evacuation part of this conduit, these two parts etanyt res
pectively connected to an outdoor installation to transport the
coolant.

Figure 10 shows an example of application of a joint according to
the invention to a "suction cup" type solar collector The surface closed off
exterior trice 65 consists of a tile or slate of a
known type, preferably made of transparent or translucent material
cide, and which will present in its lower part nipples 66 or
connecting means, in sufficient number to maintain the seal 1.

 This connection can also be achieved by appropriate bonding.

The skirt 8 has a lip 70 which is applied to the interior surface
tile or slate. The seal 1 can in this case present a
shutter surface 68, and define with the tile or slate a ca
quickly 69 inside which a heat transfer fluid can circulate.

In a preferred embodiment, the joint and the tile
or the slate are respectively fixed to the frame so that
a connection is established between the joint and the tile or slate.

The joint is made, preferably in a flexible material
and elastically deformable such as for example an elastomer.
can be made by extruding a profile which is then cut
according to a length and a shape corresponding to the perimeter of the frame
to which it is intended to adapt, then welded or glued. However,
when a sealing surface is an integral part of the joint, and
especially when this surface has a relief, it will be more ap
property of producing the joint according to the invention by molding or by
confection. In all cases, the material of the elastomer can be
different according to the parts of the joint, namely the skirt, the grooves,
the sealing lips, the edges, or the sealing surface, as regards both its physical properties (hardness, color) and its chemical properties.

 Naturally, the various variants of the seal according to the invention which have just been described have been given for information only, and are not limiting. Other implementations of the present invention could indeed be adopted without departing from its scope.

Claims (19)

 1. Suspension joint intended to ensure the elastic connection between an orifice delimited by a rigid frame and between at least two closure surfaces, characterized in that it has a skirt elastically conforming to the perimeter of the frame and constituting the side walls of different volumes between the different sealing surfaces, and that the elastic support of the seal in the orifice is ensured, among other things, by the said sealing surfaces.  2. Joint according to claim 1, characterized in that one of the sealing surfaces has connecting means with said seal which constitute the orifice. 3. Joint according to any one of claims 1 or 2, characterized in that it has elastic means for suspending at least one surface inside the zone defined by the internal wall of the skirt.  4. Joint according to any one of claims 1 or 2, characterized in that it has elastic means for maintaining at least one surface at the periphery of the orifice.  5. Joint according to any one of claims 3 or 4, characterized in that said means comprise grooves located in the thickness of the joint, along its periphery, in which are housed respectively the peripheries of the surfaces shutters, and / or flanges oriented towards the inside of the zone defined by the internal wall of the skirt on which the peripheries of the shutter surfaces are positioned.  6. Joint according to any one of the preceding claims, characterized in that its retention in the frame is achieved by a flange etiou a lip located on the periphery of the joint and bearing on the periphery of said frame.  7. Joint according to any one of the preceding claims, characterized in that the said holding and suspension means and / or the said lift (s) provide a sealed connection. 8. Joint according to any one of the preceding claims, characterized in that one of the said sealing surfaces is the absorption surface of a solar collector formed by the said joint and all of the surfaces of shutter.  9. Joint according to claim 8, characterized in that it itself has in its mass a sealing surface consti killing the absorption surface of a solar collector.  10. Joint according to any one of claims 8 or 9, characterized in that the absorption surface has a relief allowing to control the runoff of the heat transfer fluid according to the principles of thermo-siphon, capillarity, communicating vessels and / or surface tension.  11. Joint according to claim 10, characterized in that the said absorption surface has a plurality of dams in the form of chevrons or double chevrons, discontinuous, defining a plurality of retention basins, extending over the width of the absorption surface, and staggered at different levels so as to control and control the runoff of the heat transfer fluid on the absorption surface. 12. Joint according to any one of the preceding claims, characterized in that it has at least in a part of the periphery of its skirt a duct capable of conveying a heat-carrying fluid. 13. Joint according to claim 12, characterized in that the said conduit opens into the said runoff zone by a plurality of orifices acting as supply jets for the retaining basins. 14. Joint according to any one of the preceding claims, characterized in that it has at least on part of its periphery a rim in the form of a gutter capable of recovering the heat transfer fluid and discharging it through an orifice. communication with the outside.  15. Joint according to claim 12, characterized in that the said conduit allows the supply of a solar collector with pressurized heat transfer fluid and the evacuation of the fluid.  16. Joint according to any one of the preceding claims, characterized in that one maintained external sealing surface is inclined relative to the others.  17. Joint according to any one of the preceding claims, characterized in that a part of the skirt has the shape of a bellows, and that a maintained external closure surface is tiltable with respect to the others. 18. Joint according to any one of the preceding claims, characterized in that it is made of elastomer.  19. Joint according to claim 18, characterized in that the elastomer has different physical and chemical properties at the level of the skirt, the edges, the grooves, the lips and / or its absorption surface.