FR3006424A1 - WATER HEAT RECOVERY FOR CHIMNEYS AND CENTRAL HEATING - Google Patents

Abstract

The invention relates to a device for saving energy thanks to its module installed in the hearth of an open or closed fireplace. It consists of a set of U-shaped tube bundles, the first tube is positioned on 4 feet and whose base is wider and shallower. Then comes positioning through a series of tubes always U-shaped, but are narrower but deeper than the first set of tubes. The whole is inclined towards the front of the fireplace creating a double trapezoid. The device according to the invention is particularly intended for any fire extinguisher fireplace open or closed.

Description

-1- This new high-performance heat recovery unit has been the subject of several studies in the interest of specific thermal standards.

The two former, initially patented projects remained unexploited due to a change in family situation and needed to evolve. In the first heat recuperator for wood chimney, whose patent number is 93 14577, it was designed a system of two vertical collectors with a depth of tubular bundles decreasing from bottom to top, constituting fins fixed on the upper tubes and a sloping steel plate behind, the exchanger filled with circulating water as a central heating. In order to recover the maximum amount of heat, the second project was the subject of a patent granted under number 94 02752 for a recuperator which was abandoned for economic reasons. It had the same configuration of the first heat recovery unit but the horizontal tubes were quadrupled. In a continuation of studies and research, the two patented projects of the past lead today to the development no longer of a heat recuperator 20, but of a boiler placed in a fireplace whose installation and uninstallation were facilitated. This boiler made of steel consists of 33.7mm or 42mm external diameter welded tubes welded at the ends offset and superimposed pyramid fixing itself in serpentine on 2 stakes (3) on the right and 2 stakes (3) on the left vertical 25 a U-shaped structure to fit the bottoms of chimney hearths by surrounding and covering it, and so that the flames and the heat of the hearth circulate between the different tubes rising upwards, the assembly is also connected to two collectors, input and output (1) (4). Furthermore, the introduction of the tubes by their alternation 30 and their crossing allows the flames of snakes between them, thus maximizing the heat use of the fire, all without formation of air bubbles and snaps during heating . In addition, the advantage of the latter is to have at least 33 liters of water up to the equivalence of the volume of water to heat a pavilion, 35 equivalent of twenty radiators. The tubes U which are alternated, cross by two different widths and which arise one on top of the other. As the installation progresses, the depth of the various U-tubes decreases from the base to the top.

Horizontally, these U-shaped tubes initially required fabrication at the base of a steel die to make the boiler. -2- - First tube bent at 90 ° resting at the base on four feet - Second tube bent at 90 ° to be superimposed, of another form less wide but deeper, crossing right and left at the bottom of the hearth connected to the first by 1800 bends at the ends in front. - The first two tubes form a module assembly that repeats itself as many times as necessary with an inclination from the base to the top to fit the height and size of a fireplace hearth. These first two 90 ° elbow tubes together form a module or a cell which will be repeated as many times as it will be adapted to the heights and widths of the different chimney stoves but inclined at the base at the top. The 90 ° bent tubes are wider and shallower from # 1a to # 12a than the narrower and deeper 90 ° elbow tubes from # 2b to # 12b, all positioned at an angle to the front of the fireplace, creating a double trapeze. The tube is wider and shallower and rests on 4 feet The tube 2b rests on the tube connected to a bend at 180 ° The tube 2a rests on the tube 2b 20 The tube 3b rests on the tube 2a connected to an elbow at 180 ° The tube 3a rests on the tube 3b The tube 4b rests on the tube 3a connected to a 180 ° elbow The tube 4a rests on the tube 4b The tube 5b rests on the tube 4a connected to a 180 ° elbow 25 The tube 5a rests on the tube 5b The tube 6b rests on the tube 5a connected to a bend at 180 ° The tube 6a rests on the tube 6b The tube 7b rests on the tube 6a connected to a bend at 180 ° The tube 7a rests The tube 8b rests on the tube 7a connected to a bend at 1800 The tube 8a rests on the tube 8b The tube 9b rests on the tube 8a connected to a bend at 1800 The tube 9a rests on the tube 9b The tube 10b rests on the tube 9a connected to a bend at 180 ° The tube 10a rests on the tube 10b The tube llb rests on the tube 10a connected to a bend at 180 ° The tube lla r The tube 12b rests on the tube 11a connected to a 180 ° elbow. The tube 12a rests on the tube 12b and is removable. The water arrives through the first elbow tube of the base (FIG. that is to say at the hearth), and flows to the last elbow tube of the coil at the top of the device, the part of which is removable (1), and where is also the location of the thermal probe ( 2) at 95 ° C, then back down between the two tubes to the base. An aquastat (4) electric team this device connected to the existing central heating. This device allows the increase of about 33 liters of water circulating inside. The characteristic of this boiler is that the water is heated by circulating from the base to the top, in a coil-shaped circuit of 48m or more connected to the water central heating. The invention will be better understood from the description of the device 15 characterized by FIGS. 1 and 2: FIG. 1: front view FIG. 2: side view As a non-limiting example, FIG. the device will have dimensions of the order of 70 cm for the width, 95 cm for the height, 42 cm for the depth at its base and 22 cm for its depth at its top, trapezoidal shape.

Claims (6)

CLAIMS1) Device placed in an open fireplace or closed to heat a score of radiators characterized in that it consists of a bundle of U-shaped tubes bent pyramid superimposed fixing itself in serpentine on 4 stakes (3) Vertical u-shaped structure to fit the bottom of fireplaces, so that the flames and the heat of the hearth circulate between the numbers rising upward. 2) Device according to claim 1 characterized in that the U-shaped bent tubes are alternated and intersect by two different widths and are placed one on top of the other, and the depth of different tubes bent in U decrease from the base to the top, thus leaving the flames snaked between them, so as to maximize the use of the heating value of the fire, also not allowing during the heating the formation of air bubbles, or clapping. 3) Device according to claims 1 or 2 characterized in that the bundle of horizontal tubes connects two collectors characterized by the aquastat (4) serving as inlet and outlet water to a central heating and whose upper part is removable (1) and where is the probe (2) thermal. While at the lower part is an aquastat (4) electric. 4) Device according to any one of the preceding claims characterized in that the first tube bent at 90 ° rests on a base of 4 feet, which will be superimposed a second tube bent at 90 °, another shape less wide but deeper, thus crossing the right and left at the first by 180 ° elbows at the ends in front and at the bottom of the hearth, thus creating a coil. These first two tubes together form a module that will repeat as many times as necessary with an inclination from the base to the top to fit the height and size of a fireplace. 5) Device according to any one of the preceding claims characterized in that it surrounds and covers the focus so as to optimize the contact thereof with the flame. 6) Device according to any one of the preceding claims in that it is made of steel.