TH26182C3 - Ready-made radiant panels as self-supporting modules A method for the manufacture of prefabricated self-supporting modules. And the radiant surface obtained by the self-supporting modular panel manufacturing method - Google Patents

Abstract

DC60 Modular, self-supporting, prefabricated radiant panel with dovetail construction. Which consists of one plasterboard layer And one layer of thermal insulation material Plasterboard layers are assembled by a number of continuous tubes inside. Which has been Designed to form an independent hydraulic circuit. And has the end of the pipe in which the back and Side of the panel Each such independent hydraulic circuit is contained in a neighboring module region. Of radiating panels The zone is another separate one in order to arrange panels of different sizes as prefabricated, self-supporting, self-supporting, modular panels. Assembly model Which consists of one plasterboard layer And one layer of thermal insulation material Plasterboard layers are assembled with a number of continuous tubes inside. Which has been Designed to form an independent hydraulic circuit. And has the end of the pipe in which the back and Side of the panel Each independent hydroxyl circuit is contained in a neighboring module region. Of radiating panels There is another separate zone in order to arrange panels of different sizes as modules.

Claims (9)

1. Prefabricated, self-supporting (P) radiating panel with a formed dovetail structure. By at least a layer of plasterboard (1) and a layer of thermal insulating material (2), a plaster layer. The board (1) is incorporated into an internal pipe (3) for the working flow, where the end of the pipe emerges from one side of the panel with the characteristic that The plasterboard layer (1) consists of a number of (3) continuous tubes, each packed in a cavity arranged in a layout. Which is coiled on one side and in the adjacent module zone (6) of the panel and forms an independent hydraulic circuit, the above zone (6) which is extended, is arranged above Another one, which is parallel to the short edge of the panel (P), and is separated from the other in order to arrange panels of different sizes as a module 2. Radiating panels as requested. Holds the right to Clause 1, where at the end (4) of each of Such independent hydraulic circuits emerge sideways from the panel (P), in the latter zone of that, at the long edge of the panel 3. Radiating panels as in claim 1, where Say (6) which has all the same area And contains the entire length of the pipe (3) the same 4. The radiant panel, as claimed in claim 2, in which the aforementioned module (6) is arranged symmetrically with respect to the axis. 5. Radiator panel, as claimed in claim 4, in which line (L) divides adjacent modules. This is emphasized on the external surface of the radiating panel (p) by means of marking or painting, which is done using silkscreen printing, adhesive strips and the like. According to claim 3, the width of the thermal insulating material layer (2) of the radiating panel is less than the plasterboard layer width (1) in size which is sufficient to permit. Such ends (4) emerge independently from the plasterboard layer (1) and allow for adhesion Directly of the plasterboard (P) and the support (9,10) 7. Radiation panel as claimed in claim 2, which consists of the top and bottom zones ( 5) More than two packing strips (11) supplying the heat carrier fluid behind the radiating panel (P) without ducts (3) and insulation layer (2). 8. Radiator panels as claimed in the Claims. Clause 2, which the aforementioned pipe (3) is a pipe made of plastic material 9. Radiation panel as claimed in Clause 8, in which the aforementioned pipe (3) consists of wire Consolidated long metal inside the pipe wall 1 0. Radiating panel, as claimed in Clause 2, that pipe (3) is a metal pipe and should be of stainless steel. 1 1. Radiant Panel, as claimed in one of the aforementioned claims, where such layers (1, 2) of the radiant panel are bonded together by Using gluing 1 2. The method of manufacture of radiating panels as claimed in any of the claims of Clause 1 to of the type, assembled during production with the subsequent steps of a) Channeling. Cavity (7) one or more on one side of the plasterboard (1); b) the insertion of the tube (3) into the cavity (7); c) the bonding layer (2) of the Thermal insulating material onto the above-mentioned side of the radiating panel; It is unique in that it continues to be assembled during production with the following steps; a1) forms the cavity (7) with a spiral arrangement, two ends of the opening. Each spiral cavity at one end and the same end of the panel (P); b1) forms such a pipe (3) as a single continuous pipe, such a continuous pipe will emerge. Coming out from one such side of the panel are free ends at the bottom and top of the A panel and a loop at the boundary between adjacent coiled cavities; d) a continuous tube sealing (3) inside the cavity. Using materials to cover the room that conducts heat; And that during its manufacture or installation it continues with the procedure of; e) cutting such a continuous pipe (3) at the loop of that which connects the adjacent coiled cavity 1. 3. Methods for manufacturing radiant panels as claimed in any of Claims 1 to 11, including the procedure of; a) the formation of plasterboard panels by implantation. One or more (3) spiral ducts go into the gypsum core of the plasterboard. The end of this spiral duct emerges from the One side of such panel; b) bonding layer (2) of thermal insulating material onto one side of panel 1. 4. Method of manufacture of radiating panels as claimed in any of Claims 1 to 11, including the procedure of; a) the formation of plasterboard panels by implantation. Only one continuous pipe (3) enters the gypsum core of the plasterboard formed in more than one coils, such a continuous tube emerges from that side of the panel as free ends on the side. Bottom and top of the panel and is a loop at the boundary between adjacent coils In which the end of the spiral tube This emerges from the rear zone on one side of the panel. B) Bonding layer (2) of the thermal insulating material onto one side of the panel 1. 5. Radiation panels formed by a certain amount of powder as claimed in any of the Claims 1 through 11, which are characterized by that panel (P), are arranged side by side. So that the adjacent double radiating panels (P) are adjacent to each other along the sides that have no end (4) of the tube (3) but separate from each other along the receiving side. (4) at a distance according to Which is sufficient for insertion of a secondary tube connector (8) attached to the said end (4) between radiators 1. 6. The radiant panel referred to in claim 15, which is fixed to the masonry or Pre-existing ceiling Using a metal support that is inserted Cross-section A square or U-shaped (9) along the lines connecting neighboring radiating panels to each other and using a metal support that has an omega (10) cross-section along the strip connecting the radiating panels. Non-proximity radiation Get together 1 7. The radiant panel, as claimed in claim 16, in which the aforementioned secondary pipe connectors (8) is contained in the aforementioned metal support with an omega-shaped cross-section ( 10) where the secondary pipe connector It is connected to the end (4) of the spiral tube (3) 1. 8. The radiant panel, as claimed in Clause 16, also includes a main supply pipe (1) for supplying the heat carrier fluid to the aforementioned secondary pipe connectors (8), which Contained Behind the radiating panel (P) along the tab (5) of the panel. Which does not have such a heat-insulating layer (5) 1 9. Radiation panel, as claimed in claim 16, which also consists of a plasterboard (C) for covering along the metal support with ome cross-section. Ka