BE1004237A4 - Method for manufacturing a profile provided with a thermal barrier andinstallation for the implementation of said method - Google Patents

Abstract

A method for manufacturing a profile, comprising simultaneously driving inthe same direction and at the same speed, parallel to their longitudinal axesparallel to each other, at least two profiles (1, 2) disposed facing eachother and at a distance from each other, their assembly ribs (4) turnedtowards each other and guiding them over the entire period of their movementby acting on at least three external contiguous surfaces (7, 8 and 9) on eachand two (7 and 9) of which are opposing, so that the section that theydelimit remains constant over their entire length and corresponds strictly tothe section of the profile (5) to be manufactured and assembling them with athermal barrier insulating element, while they are offset and guided, and aninstallation for implementing said method.<IMAGE>

Description

       

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  "Method for manufacturing a profile provided with a thermal barrier and installation for implementing this method".



   The present invention relates to a method of manufacturing a profile provided with a thermal barrier and consisting of at least two profiles arranged opposite and away from each other and assembled by at least one element. insulator forming said thermal barrier and cooperating with ribs presented by each of the two aforementioned profiles.



   The thermal barrier profiles of the aforementioned type currently available have the drawback of having a section which is not constant over their entire length, with variations in dimensions of up to 0.8 mm between their external faces. the most distant from each other and which are parallel to the median plane of the interval which separates the profiles joined by the thermal barrier.



  These dimensional variations are particularly troublesome at the places of assembly of the profiles because they create between the corresponding external faces of two consecutive assembled profiles unevenness which, on the one hand, strongly affect the aesthetics and, on the other hand, constitute areas that may be subject to oxidation and where agglomerated dust is encrusted.



   The invention aims to remedy this drawback and to provide a method which makes it possible to produce, from profiles to be assembled to form the profiles with thermal barrier and which have variations in dimensions or common tolerances of the order of 0 , 4 mm, profiles with a thermal barrier of practically constant cross section and the distance of which separating the above-mentioned opposite external faces does not vary, over the entire length of the profiles, by more than 0.1 mm; which makes it possible to obtain profiles with a thermal barrier, the tolerances of which, between the abovementioned external faces and which are decisive for obtaining the most perfect assemblies possible, are reduced from 0.8 mm to 0.1 mm.

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  To this end, according to the invention, said method consists in placing the two aforementioned profiles so that their longitudinal axes are parallel, so that the ribs intended for carrying out their assembly are turned towards one another and so that the delimited section by the two profiles corresponds substantially to the section of the profile to be manufactured, to drive simultaneously, in the same direction and at the same speed, the profiles in a direction parallel to the longitudinal axis of one of the profiles, to guide the profiles driven, throughout the duration of their movement and by acting on at least three contiguous external faces of each of the sections and two of which are opposite,

   so that the section delimited by the two sections remains constant over their entire length and corresponds strictly to the section of the section to be produced and assembled the sections while they are moved and guided.



  According to one embodiment of the invention, the two aforementioned sections are placed so that the ribs and the longitudinal portions of their external faces which carry these ribs delimit the side walls of at least one channel, an elongate element is arranged along the longitudinal axis of one of the profiles so that it comes into contact with two corresponding ribs of the profiles, located substantially at the same level, to form the bottom of said channel and a curable material is poured into the latter to produce, on the one hand, the assembly of the profiles and, on the other hand, constitute the aforementioned thermal barrier.



  According to a particularly advantageous embodiment of the invention and to increase the adhesion of the cast material to the surfaces of the profiles to be assembled, at least the surfaces of the profiles intended to come into contact with the material are covered, prior to casting, of a product increasing the adhesion of said material to the material constituting the profiles. In addition, the choice is, as curable material and as product increasing the adhesion of the latter to the material of the profiles, of material and product whose implementation and cohesion are improved by an increase in temperature and the profiles are heated after application of the product and before the material is poured.



  The invention also relates to an installation

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 for the implementation of the above process.



   According to the invention, this installation comprises means arranged to arrange the two aforementioned profiles so that a free space remains between them, that their longitudinal axes are parallel, that the ribs intended for carrying out their assembly are turned towards each other. other and that the section delimited by the two sections corresponds substantially to the section of the section to be manufactured, drive means arranged to simultaneously move, in the same direction and at the same speed, the sections in a direction parallel to the axis longitudinal of one of the profiles, means for guiding the driven profiles during the entire duration of their movement, by acting on at least three contiguous external faces of each of the profiles and two of which are opposite,

   so that the section delimited by the two sections remains constant over their entire length and strictly corresponds to the section of the section to be manufactured, and means for assembling the sections while they are moved and guided.



   Other details and particularities of the invention will emerge from the description of the drawings appended to this memo and which illustrate, by way of non-limiting examples, the method and a particular embodiment of the installation according to the invention.



   Figure 1 is a schematic elevational view which illustrates the above process and shows an installation for the implementation thereof.



   Figure 2 is a plan view corresponding to Figure 1.



   FIG. 3 shows, on a larger scale than that of FIG. 1, a detail of the installation shown in said FIG. 1.



   Figures 4 and 5 are sections along lines IV-IV and V-V in Figure 3.



   Figure 6 shows, on a larger scale than that of Figures 4 and 5, a section of the profile with a single thermal barrier during assembly.



   Figure 7 is a view similar to Figure 6 and shows a profile with double thermal barrier which can also

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 be carried out using the above installation.



   Figure 8 shows, on a larger scale, a detail
 EMI4.1
 means for guiding the profiles to be assembled illustrated in FIG. 4.



   In the different figures, the same reference notations designate identical or analogous elements.



   The method according to the invention is intended for the manufacture of a profile provided with a thermal barrier and consisting of at least two profiles 1, 2 arranged opposite and away from each other and assembled by at least one insulating element 3 forming said thermal barrier and cooperating with ribs 4 presented by each of the two aforementioned profiles. This process essentially consists in placing these two sections 1 and 2 so that their longitudinal axes are parallel, so that the ribs 4 intended for carrying out their assembly are turned towards one another and so that the section delimited by the two sections 1 and 2 substantially corresponds to the section of the profile. 5 to manufacture.

   After this positioning of the profiles, they are driven simultaneously, in the same direction represented by arrow 6 and at the same speed, in a direction parallel to the longitudinal axis of one of the profiles, and the latter are guided for throughout the duration of their movement and by acting on at least three contiguous external faces 7,8 and 9 of each of the sections and two of which 7 and 9 are opposite so that the section delimited by the two sections 1 and 2 remains constant over their whole length and strictly corresponds to the section of profile 5 to manufacture and assemble profiles 1 and 2 while they are moved and guided.

   This assembly can be carried out either by gluing an insulating element prefabricated to the two profiles 1 and 2, or by clipping or riveting an insulating element prefabricated to said profiles 1 and 2 or by casting or injecting an insulating material between said profiles. profiles 1 and 2.



   In the embodiment of the method illustrated in the drawings, the assembly of the sections 1 and 2 is carried out by pouring an insulating material which hardens quickly and which has, in the cured state, sufficient rigidity to make the section 5 non-deformable. . To do this, the two sections 1 and 2 are placed so that the ribs 4 and the longitudinal portions 10 of their external faces 11, which bear

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 these ribs delimit the side walls of at least one channel 12.

   To form the bottom of the latter, there is an elongated element 13 along the longitudinal axis of one of the sections so that it comes into contact with two corresponding ribs of sections 1 and 2 located substantially at the same level and is poured into this channel, the curable material for producing, on the one hand, the assembly of the sections 1 and 2 and, on the other hand, constituting the insulating element 3 forming the thermal barrier.



   To increase the adhesion of the cast material, which carries out the assembly, to the surfaces of the profiles to be assembled, at least the surfaces of the profiles constituting the aforesaid channel are covered, in 18, prior to casting, with a product increasing the adhesion of said material to the material constituting the profiles. When one chooses, as curable material and as product increasing the adhesion of the latter to the material of the profiles, of material and product whose implementation and cohesion to the profiles 1 and 2 are improved by an increase in temperature, one heats , at 14, the sections 1 and 2 after the application of the product and before the material is poured.



   In order not to interrupt the casting of the aforementioned material between each profile 5, which causes inequalities in the casting at the ends of this profile, the invention advantageously provides, for the assembly of profiles 1 and 2 which constitute the profiles 5, that these profiles 1 and 2 are arranged, moved and guided, in pairs 15 and end to end in their longitudinal direction, so that their assembly can be carried out continuously with continuous casting of the insulating material . Advantageously, the ends of the sections 1 and 2 are erected, in pairs 15, so that the ends of the sections 1 and 2 of one pair can bear on the corresponding ends of another pair, over their entire surface.



   There is separated, at 16, an assembled profile 5 from a pair 15 of profiles 1 and 2 being assembled substantially at the junction point where these latter profiles are supported on the profiles constituting the profile 5 and this so as to take as little material as possible. This separation is advantageously carried out by detecting the aforementioned junction location and by following this detected location, at the same speed and in the same direction as those of the sections 1 and 2, by

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 means 17, such as two parallel saws arranged to cut the profile 5 on either side of the aforementioned junction point.



   The profiles 1 and 2 to be assembled are advantageously brought automatically, pair by pair, to the place where they are driven and guided, while the profiles 5 separated from the profiles 1 and 2 to be assembled are also released automatically. It could be conceived, according to the invention, that a single supply of sections 1 and 2 to be assembled as well as a single outlet of the sections 5 serve several assembly lines of the sections 1 and 2 working in parallel. This is the case of the installation which will be described below and which is illustrated in the drawings.



   In its simplest embodiment, the installation for the implementation of the above method comprises means for supporting the two sections 1 and 2 to be assembled so that their longitudinal axes are parallel, that the ribs 4 intended for the realization of their assembly are turned towards each other and that the section delimited by the two sections 1 and 2 to be assembled corresponds substantially to the section of the section 5 to be manufactured. In the extension of these support means are provided drive means 19, in contact with which the profiles 1 and 2 supported are pushed manually, to be moved automatically and simultaneously, in the same direction and at the same speed in a parallel direction to the longitudinal axis, of one of the sections 1, 2.

   These drive means 19 are associated with guide means 20 which are arranged for two sections 1 and 2 for the entire duration of their movement, by acting on three contiguous external faces aforesaid 7,8 and 9 so that the section delimited by the two sections 1 and 2 remains constant over their entire length and corresponds, with the aforementioned extremely reduced tolerance, to the section of the section to be manufactured. Means 21 are associated with the drive means 19 and the guide means 20 for assembling the sections 1 and 2 while they are moved and guided and are advantageously constituted by a device for casting a curable insulating material which is fixed. and opposite which the profiles 1 and 2 to be assembled pass.

   In this type of installation, a space can be left. between each pair of profiles 1 and 2 to

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 assemble and, in this case, interrupt the casting operation between each pair. This solution would however be advantageous if, instead of the aforementioned cast material making the thermal barrier, there was a prefabricated insulating element pre-glued between the profiles 1 and 2 before they are brought into contact with the aforementioned drive 19 and guide means 20. which would provide permanent connection between profiles 1 and 2.



   In the case where the sections 1 and 2 are placed manually in contact with the drive means 19 and their connection is ensured by the casting of the aforementioned material, it will suffice, in order to be able to cast this material continuously, to push the sections 1 and 2, in pairs and end to end, through these means 19 and the guide means 20.



  It will then suffice, at the outlet of these means, to cut, for example using a saw, with manual control, the section assembled at the junction points of the pairs of sections 1 and 2.



   The installation illustrated schematically in the drawings is fully automatic and includes mechanical means 22 for arranging the sections 1 and 2, in pairs, opposite two parallel working tracks each comprising the drive means 19, the guide means 20 and the assembly means 21 arranged and operating in the same way.



   The means 22 for arranging the profiles 1 and 2 to be assembled and the aforementioned drive means 19 for the latter, towards the assembly location, are arranged to move said profiles in synchronism in two perpendicular directions, the means 22, bringing these, in pairs, in contact with the drive means so that the successive pairs are aligned and so that the longitudinal axes of the corresponding sections 1 and 2 are practically identical. The means 22 comprise circular saws 23, fixed and of adjustable position, which are placed relative to these means 22 for cutting, during the displacement of the sections 1 and 2, the ends of two sections constituting each pair so that they have the same length.

   These means 22 comprise, on the one hand, movable stops 24 arranged to keep the sections 1 and 2 in movement so that their longitudinal axis so. it perpendicular to the direction of movement-

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 ment and, on the other hand, clamping members (not shown) holding the profiles 1 and 2 against the movable stops 24 at least during the sawing operations of the ends of the profiles 1 and 2. So that the profiles can be put together at the end, seamless, the circular saws 23 are oriented to cut the ends of the sections 1 and 2 perpendicular to their longitudinal axis.

   To place the pairs of sections 1 and 2 end to end, the means 22 comprise, for each of the above lines, a pusher 25 controlled to move, in a back-and-forth movement, in a direction parallel to the direction of displacement of the aforementioned drive means 19, these being actuated continuously. This pusher 25 is associated with the means 19 and with the means 22, which are actuated step by step, so that the sections 1 and 2 of each pair put into position have, at each stop, means 22, one end engaged on the means of drive 19 while their other end is located on the path of pusher 25.

   The speed of movement of the pusher is greater than that of the drive means 19 and is such that, during the abovementioned stop which makes it possible to release the pair of profiles put into position of the means 22, this pair of profiles is pushed against the pair previous already engaged in the drive means 19, so that the assembly of the sections, arranged pair by pair discontinuously on said drive means, can be carried out continuously, means, which will be described below, being provided for cutting the manufactured section 5 into sections 26.



   The means 22 comprise spraying members 27 movable in a direction parallel to the longitudinal axes of the sections 1 and 2, arranged on the said means 22, and arranged to coat the surfaces of these sections which will be in contact with the insulating material making their assembly. These members 27 deliver a product which improves the adhesion of this insulating material to the material constituting the sections 1 and 2. To facilitate this spraying, the means 22 can be equipped with movable arms (not shown) temporarily orienting the surfaces to be sprayed towards the members 27, to then return them to the position of introduction into the drive means 19.



   When the. sprayed product and insulating material

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 chosen have an easier implementation and offer better adhesion to the profiles when applied at a temperature higher than ambient temperature, the means 22 comprise, downstream of the spraying members. 27, considering the direction of movement of said means 22, an oven 28 intended to raise the temperature of the coated profiles 1 and 2 so as, on the one hand, to fix the coating on the profiles 1 and 2 and, on the other hand, to bring the latter to a temperature which favors the attachment of the assembly material to the coated profiles.



   The aforementioned drive means 19, arranged to move the profiles 1 and 2 in pairs along the longitudinal axis of one of the profiles, consist of an endless belt 29 provided with drive means (not shown) which moves it continuously, in the same direction and at constant speed. This endless band 29 is arranged so that each of the two sections 1 and 2 to be assembled sty presses in the vicinity of the lateral edges 30 and 31 of one of its strands 32. The free area 33 of this strand 32 constituting the elongated element 13 above which forms the bottom of the channel in which the assembly material will be poured, the sections 1 and 2 to be assembled being applied to the strand 32 of the endless belt 29 at least by the aforementioned guide means 20.

   The strand 32 of the endless belt cooperating with the sections 1 and 2 rests on a flat support 34 arranged to keep it in contact with the sections 1 and 2 to be assembled. This support 34 is of adjustable position, in a direction perpendicular to its contact surface with the profiles, and is, to do this, associated with an inflatable element 35 constituting a linear pneumatic cylinder.



   The means 20 ensuring the guiding of the profiles, during their drive by the means 19 and during their assembly, consist of sets 36 of four rollers 37 spaced from one another in the direction of displacement of the profiles. The shafts 38 of the rollers 37 have their axes 37 'located in a plane perpendicular to the vertical plane passing through the longitudinal axis of one of the profiles to be assembled. These axes are of adjustable position in this perpendicular plane and means 39 are provided for either immobilizing them, or holding them by springs 40, in the chosen position and perpendicular to the plane.

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 vertical above.

   The rollers 37 rotate freely around their shaft, and are of adjustable position in a direction parallel to the axis of their shaft while being arranged to be able to be immobilized, in the latter direction, in the chosen position. The rollers 37 of each set are arranged to cooperate, in pairs, with one of the sections 1 and 2 to be assembled. The rollers of each pair are each profiled to bear, on three contiguous external faces 7,8 and 9 of the profile 1 or 2 in two directions, a direction parallel to the above vertical plane and a direction perpendicular to the latter.



   Elastic means 41, associated with each of the rollers 37 and supported by their shaft, are arranged to bear on the profile 1 or 2 to apply the latter to the cheek 42 of the roller.



   To reinforce the guiding of the profiles and improve their drive by the aforementioned endless belt 29, rollers 43, with axes parallel to the axes 37 ′ of the rollers 37, are regularly distributed between the sets of rollers and bear on the faces 44 of profiles 1 and 2.



   When the profile to be manufactured 5 comprises, as shown in FIG. 7, a second assembly zone 45 obtained, using the above-mentioned insulating material and which is, on the one hand, parallel to the assembly zone 46 produced in the channel 12, the bottom of which is constituted by the upper strand 32 of the aforementioned endless belt and, on the other hand, situated at a level higher than that of this latter zone, the installation is equipped with means 47 arranged, firstly, to unwind, parallel to said upper strand 32 of the endless band, a tape 48, such as an adhesive tape, cooperating with the faces 49 and 50 of the sections 1 and 2 to be assembled in order to be driven by these last, to form the bottom of a second channel 51 in which the insulating material constituting the second assembly zone 45 is poured and, on the other hand,

   to constitute this channel 51 downstream from the place where the insulating material forming the first assembly zone 46 is poured, and this, by considering the directions of displacement of the sections 1 and 2 entrained by the endless belt 29.



   The installation advantageously comprises means 52 arranged on either side of each aforementioned line for filling

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 the surfaces of the profiles in contact with the rollers 37 of a protective adhesive tape, the unwinding of this tape being caused by the displacement of the profiles 1 and 2 by the drive means 19. The above-mentioned means 17 provided for cutting the profile manufactured in sections are formed by a device 53 provided with two parallel circular saws arranged to cut the manufactured section 5, on either side of the place where the sections 1 and 2 which constitute it were arranged end to end, perpendicularly to the direction of movement of the profiles.

   Means not shown are provided on this device 53 for detecting the junction point of the profiles and, on the one hand, for driving the device 53 at the same speed as that of the profiles 1 and 2, in the same direction as those ci, during at least the cutting operation and, on the other hand, return said device to its detection position when the cutting is carried out.



   The installation finally comprises a conveyor 54 arranged perpendicular to the above-mentioned drive means 19 for the sections 1 and 2. This conveyor is arranged to receive and remove one by one the sections of sections as they are separated by the device 53, said conveyor being driven either by a continuous movement, or by a step-by-step movement controlled for example by the device 53 during its return journey to its detection position.



   It should be understood that the invention is in no way limited to the embodiments described and that many modifications can be made to these without departing from the scope of this patent.



   Thus the above process and installation could be used for the manufacture of plastic or wooden profiles with thermal barrier, as well as for the production of mixed profiles such as metal-wood, wood-plastic.


    

Claims (20)

 CLAIMS 1. Method for manufacturing a profile provided with a thermal barrier and consisting of at least two profiles (1, 2) arranged opposite and away from each other and assembled by at least one element insulator (3) forming said thermal barrier and cooperating with ribs (4) presented by each of the two aforementioned profiles, said method being characterized in that it consists in placing the two profiles (1,2) above so that their longitudinal axes are parallel, so that the ribs (4) intended for carrying out their assembly are turned towards one another and so that the section delimited by the two sections (1,2) corresponds substantially to the section of the section (5) to manufacture, to be driven simultaneously, in the same direction (6) and at the same speed,  the sections in a direction parallel to the longitudinal axis of one of the sections, to guide the driven sections, throughout the duration of their movement and by acting on at least three contiguous external faces (7,8 and 9) of each of the sections and two of which (7 and 9) are opposite, so that the section delimited by the two sections (1, 2) remains constant over their entire length and strictly corresponds to the section of the section (5) to manufacture and assemble the sections (1,2) while they are being moved and guided.  2. Method according to claim 1, characterized in that the two sections (1,2) above are placed so that the ribs (4) and the longitudinal portions (10) of their external faces (11) which carry these ribs delimit the side walls of at least one channel (12), there is an elongated element (13) along the longitudinal axis of one of the profiles so that it comes into contact with two corresponding ribs (5) of the profiles (1, 2), located substantially at the same level, to form the bottom of said channel and a curable material is poured into the latter to produce, on the one hand, the assembly of the profiles (1,2) and, on the other hand , constitute the aforementioned thermal barrier.  3. Method according to claim 2, characterized in that, to increase the adhesion of the cast material to the surfaces of the profiles to be assembled, at least the surfaces of the profiles intended to enter are covered (in 18), prior to casting. in contact with the material, a product increasing the adhesion of said material to  <Desc / Clms Page number 13>  the material constituting the profiles.  4. Method according to claim 3, characterized in that one chooses, as curable material and as product increasing the adhesion of the latter to the material of the profiles, material and product whose implementation and cohesion are improved by an increase in temperature and in that the profiles (14) are heated after the application of the product and before the material is poured.  5. Method according to any one of claims 1 to 4, characterized in that, for their assembly, we arrange, move and guide the profiles in pairs (15) and end to end, in their longitudinal direction, so that said assembly is carried out continuously.  EMI13.1   6. Method according to claim 5, characterized in that one erects the ends of the profiles, in pairs (15), so that the ends of the profiles of a pair (15) can bear on the corresponding ends of a other pair, by their entire surface.  7. Method according to either of claims 5 and 6, characterized in that one separates (at 16) an assembled profile (5) from a pair (5) of profiles being assembled substantially at the place where these latter profiles are supported on the profiles (1, 2) constituting the assembled profile (5).  8. Installation for implementing the method according to any one of claims 1 to 7, characterized in that it comprises means (22) arranged to arrange the two aforementioned profiles so that a free space remains between them, that their longitudinal axes are parallel, that the ribs intended for the realization of their assembly are turned towards each other and that the section delimited by the two sections corresponds substantially to the section of the section to be produced, drive means (19 ) arranged to move simultaneously, in the same direction and at the same speed, the sections in a direction parallel to the longitudinal axis of one of the sections, means for guiding (20) the sections driven during the entire period of their movement ,  by acting on at least three contiguous external faces (7,8 and 9) of each of the sections and two of which (7 and 9) are opposite, so that the section delimited by  <Desc / Clms Page number 14>  the two profiles remains constant over their entire length and strictly corresponds to the section of the profile to be manufactured, and means 21) for assembling the profiles while they are moved and guided.  9. Installation according to claim 8, characterized in that the aforementioned means (22) for arranging the two sections to be assembled and the above-mentioned drive means (19) of the latter towards the assembly location are arranged to move in synchronization of said sections in two perpendicular directions, the means (22) arranging the sections, bringing them, in pairs (15), into contact with the drive means (19) so that the successive pairs (15) are aligned and for that the longitudinal axes of the corresponding profiles are practically identical.  10. Installation according to claim 9, characterized in that it comprises means, such as circular saws (23), fixed and of adjustable position, associated with the above-mentioned means (22) for arranging the two sections and which are placed by relative to the latter for cutting, during the displacement of the sections (1, 2), the ends of two sections constituting each pair (15) so that they have the same length, these means comprising, on the one hand, movable stops (24) arranged to keep the profiles in motion so that their longitudinal axis is perpendicular to the direction of movement and, on the other hand, clamping members holding the profiles against the movable stops at least during sawing operations.  11. Installation according to claim 10, characterized in that the circular saws (23) are oriented to cut the ends of the profiles perpendicular to their longitudinal axis.  12. Installation according to any one of claims 9 to 11, characterized in that means, such as a pusher (25) controlled to move it, in a back-and-forth movement, in a direction parallel to the direction of movement of the above-mentioned drive means (19) which are actuated continuously, are associated with these latter means (19) and with the abovementioned means (22) arranging the profiles in pairs, which are actuated step by step, so that the profiles of each pair (15) placed in position have, at each stop, of these latter means (22), one end engaged on the drive means  <Desc / Clms Page number 15>  ment (19) while their other end is located on the path of the aforementioned pusher (25), the speed of movement of the pusher (25)    being greater than that of the drive means (19), and being such that, during the abovementioned stop which makes it possible to release the pair (15) of profiles placing the above-mentioned means (22) positioning the profiles, this pair ( 15) of profiles is pushed against the previous pair so that the assembly of the profiles, arranged pair by pair discontinuously on the drive means (19), can be carried out continuously, means (17) being provided for cut the manufactured section into sections (26).  13. Installation according to any one of claims 9 to 12, characterized in that it comprises, associated with the means (22) above to arrange the two sections (1, 2) to be assembled, spraying members (27) arranged to coat the surfaces of the profiles, which will be in contact with the. material carrying out the assembly, of a product improving the adhesion of said material to the material constituting the profiles.  14. Installation according to claim 13, characterized in that it comprises, associated with the above-mentioned means (22) for arranging the two sections to be assembled and downstream of the spraying members (27) above, considering the direction of movement of said means ( 22), means (28) for raising the temperature of the coated profiles so as, on the one hand, to fix the coating and, on the other hand, to bring the profiles to a temperature (at 14), promoting the attachment of the assembly material to the coated profiles.  15. Installation according to any one of claims 8 to 14, characterized in that the drive means (19) above, arranged to move the profiles (1, 2) in pairs (15) along the longitudinal axis of one of the sections, are constituted by an endless strip (29) provided with drive means which moves it continuously, in the same direction and at constant speed, this endless strip being arranged so that each of the two sections to be assembled s 'presses there in the vicinity of the lateral edges (30, 31) of one of its strands (32), the free zone (33) of the strand (32) of said endless band, in contact with the profiles to be assembled constituting the said elongated element (13) forming  <Desc / Clms Page number 16>  the bottom of the channel into which the assembly material will be poured, the profiles (1, 2)  to be assembled being applied to the aforementioned strand (32) of the endless belt (29) at least by the aforementioned guide means (20).  16. Installation according to claim 15, characterized in that the strand (32) of the endless belt cooperating with the profiles (1, 2) rests on a flat support (34) arranged to keep it in contact with the profiles (1, 2) to be assembled, this support being of adjustable position in a direction perpendicular to its contact surface with the profiles.  17. Installation according to either of claims 15 and 16, characterized in that it comprises, when the profile to be manufactured (5) comprises at least a second assembly zone (45) using the the aforementioned insulating material, parallel to the assembly zone (46) which is produced in the channel, the bottom of which is constituted by the upper strand (32) of the above-mentioned endless band (29) and which is situated at a level higher than that of the latter zone (46), means (47) arranged, on the one hand, for unwinding, parallel to said upper strand (32) of the endless band, a tape (48), such as an adhesive tape, cooperating with the profiles (1,2) to be assembled in order to be driven by the latter,  to form the bottom of a second channel into which the insulating material constituting the second assembly zone (45) is poured, and, on the other hand, to form this channel downstream from where the insulating material is poured forming the first assembly zone (46), considering the direction of movement of the sections (1,2) driven by the endless belt (29).  18. Installation according to any one of claims 8 to 17, characterized in that the aforementioned means (20), intended to guide the profiles (1,2) during their drive and for their assembly, consist of at least two sets of four rollers (37) spaced from one another in the direction of displacement of the profiles, the shafts (38) of the rollers (37) having their axes (37 ') situated in a plane perpendicular to the passing vertical plane by the longitudinal axis of one of the profiles to be assembled, these axes (37 ') being of adjustable position in this perpendicular plane and means (39) being provided for either  <Desc / Clms Page number 17>  immobilize, or hold them by springs (40), in the selected position and perpendicular to the above-mentioned vertical plane, the rollers (37),  which rotate freely around their shaft (38), being of adjustable position in a direction parallel to the axis of their shaft (38) and being arranged to be able to be immobilized, in this latter direction, in the chosen position, the rollers (37 ) of each set being arranged to cooperate, in pairs, with one of the profiles (1,2) to be assembled, said rollers (37) of each pair being each profiled to bear, on two contiguous external faces (7, 8 9) of the profile in two directions, a direction parallel to the above vertical plane and a direction perpendicular to the latter, elastic means (41), associated with each of the rollers (37) and supported by their shaft (38), being arranged to bear on the profile (1 or 2) to apply the latter on the roller.  19. Installation according to any one of claims 12 to 18, characterized in that the above-mentioned means (17) provided for cutting the manufactured section, into sections (26), consist of a device (53) provided with at least one saw arranged to cut the manufactured section (5), at the place where the sections which constitute it were placed end to end, perpendicular to the direction of movement of the sections, means being provided on the device for detecting the cutting location and, on the one hand, for driving the device (53) at the same speed as that of the profiles (1,2), in the same direction as the latter, during at least the cutting operation and , on the other hand, return said device to its detection position when the cut is made.  20. Installation according to claim 19, characterized in that it comprises a conveyor (54) arranged perpendicular to the drive means (19) above said profiles and arranged to receive and remove one by one the sections (26) of profiles at as they are separated by the device (53), provided with the aforementioned saw, this conveyor being driven either by a continuous movement, or by a step-by-step movement controlled by the device (53) above during its path to its detection position.