FR2716255A1 - Electric storage heater made up of modular elements and comprising a single heating body. - Google Patents

Abstract

Electric storage heater comprising modular elements (1, 2, 3) provided with fins of the type used in water-based central heating systems and assembled to provide a compact wall-mounted or portable heater of required power. The modular elements, each integrally formed, preferably of aluminium alloy, have a recess (4) formed therein, for the insertion of a single refractory brick housing an internal electric resistor (1), one of the modular elements being adapted to act as power unit provided with a bulb thermostat and an electric cord for connection to the mains. The wall-mounted or portable heater is suitable for use as a primary heating means or as an auxiliary form of heating in any building.

Description

ELECTRIC STORAGE RADIATOR CONSISTING OF MODULAR ELEMENTS AND COMPRISING A HEATING BODY
UNIQUE
The present invention relates to an electric storage heater made up of modular elements and comprising a single heating body.
It is intended for basic or additional heating of premises of all types and can be used both as a fixed and as a mobile device.

 Living spaces, offices or professional premises are increasingly heated by individual autonomous devices, due to the difficulties encountered in controlling and optimizing energy consumption in large central heating installations.

 The three most commonly used energy sources are fuel oil, gas and electricity. The latter has many advantages such as flexibility, cleanliness, comfort, ease of adjustment and programming, low investment, etc., but its cost per kilowatt hour is significantly higher than for the other two energies.

 This observation was at the basis of the development of "integrated heating", which consists in taking advantage of the low price of electric heaters to provide for insulation of the premises such that the initial investment is of the same order as with gas heating. or fuel oil without insulation, and that the energy cost in operation is equal or lower.

 However, this technique is only applicable in practice for new constructions and, when insulation was not originally planned, the only way to use electricity under economically viable conditions is to use energy storage radiators. Unfortunately, existing devices of this type are generally bulky, expensive and of relatively high unit power, which most often means providing for a very limited number of devices and sometimes even a single device for several rooms when these these are small, which does not allow a satisfactory distribution of heat and makes lose the advantage of flexibility inherent in electric heating.

 Patent NO FR 91 08 640, filed by the same applicant, presents a radiator made up of several modular storage elements, each formed of three parts, an upper part with convection deflectors, a lower part supporting the element and a central part. containing an elementary electric heating element contained in a double envelope limiting the temperature, the assembly being completed by a special element comprising the electrical supply, as well as a thermostat and a programmer.

 If this device provides a satisfactory solution, it is however very obvious that the presence of a double jacket, the assembly of the different parts, specially made, and the need to provide wiring to connect the heating bodies, entails a cost of high manufacturing.

 The device according to the present invention, which consists of improvements made to the subject of the above patent, eliminates all these drawbacks. Indeed, it makes it possible to obtain devices combining the advantages of electric convectors and space-saving storage radiators, of a particularly reasonable price and which can be installed anywhere, in particular at the locations usually used for space radiators. conventional central heating.

 I1 consists of modular fin elements of the type used for central water heating, assembled to form a wall or mobile space-saving radiator with reduced power, the modular elements, each consisting of a single piece, preferably made of aluminum alloy, comprising a recess making it possible to house a single refractory brick equipped, with an internal electrical resistance and housed in said elements, one of these being adapted to play the role of supply unit with thermostat with bulb and power cord.

In the accompanying drawings, given by way of nonlimiting examples of embodiments of the subject of the invention:
FIG. 1 represents in perspective a radiator according to the invention made up of a series of elements assembled in line,
FIGS. 2 to 4 show respectively, in perspective view and on a different scale, the three modular elements constituting a radiator, namely: the terminal element, the current element and the electrical supply element,
Figure 5 shows, in perspective perspective, on a different scale, a special wall mounting pin of the radiator.

FIG. 6 shows, seen from the side of the radiator, a support chassis fitted with a pad or rollers,
FIG. 7 illustrates the arrangement of the heating body in a variant according to which the radiator is formed of two series of modular elements connected by sheets forming a box and,
FIG. 8 is a vertical section passing between two modular elements, along the arrows AA of FIG. 7,
The device, Figures 1 to 6, consists of modular elements of three different types:
an electrical supply element 1,
- at least one current element 2
- and a terminal element 3,
inside which is disposed a single heating body 4.

 The modular elements 1, 2, 3, in a single piece, can be manufactured specially for the device which is the subject of this patent, or produced by machining from a single existing standard element intended for the mounting of water central heating radiators or steam, and are characterized by upper 5 and lower 6 tubular horizontal sections which can be joined together end to end and connected by a vertical hollow part 7, the latter being formed by two walls delimiting a passage between said tubular sections, and carrying a front blade 8 and a rear blade 9 between which are arranged fins 10 vertical.

 The modular elements 1, 2, 3 are preferably made of aluminum alloy. The mounting of the radiator is carried out by joining the upper 5 and lower 6 tubular sections together in the same manner as for hot water radiators, according to the technique known as "niplage".

 The current elements 2 and the terminal element 3 are provided with a recess consisting of cutouts 11 made in the walls of the vertical hollow part 7, and allowing the mounting of the heating body 4. These cutouts are made in the two walls to the current elements 2 and in the single internal wall for the terminal element 3, so as to close one end of the internal cavity thus created.

 The other end of this cavity is closed by the electrical power supply element 1, equipped with a mains connection cord, connection terminals for the heating body 4 and a bulb thermostat controlled by a button 12 accessible from the outside, the electrical equipment being protected from dust and humidity thanks to a sealed cover closing the access hatch 22 formed by a cutout made in the internal wall of the hollow part 7.

 The heating body 4, mounted in the internal cavity of the radiator is of rectangular shape and consists of a brick sealed by a coating of silicone, in which an electrical resistance is embedded. This brick is thin enough so that the distance between its faces and the external surface of the radiator prevents any possibility of overheating of the accessible metal parts, thus making it possible to dispense with a safety device cutting off the electrical supply.

 The radiator can be fixed to the wall by means of special dowels 13 (FIG. 5) comprising an annular groove in which the rear blades 9 of two contiguous modular elements will be inserted, or mounted on frames 14 provided with counter plates 23 supporting several modular elements, fixed to the lower tubular sections 6 by means of bolted stirrups 15, and fitted with pads 16 and / or rollers 17 (FIG. 6).

 Radiators with a high accumulation capacity can be produced by placing the heating body 4 between two series of modular elements 2 ′ without cutouts 11, connected by spacer plates 18 forming a box constituting the internal cavity in which the said cavity is housed heating element (Figures 7 and 8).

 This consists either of a thin brick of parallelepiped shape in which an electrical resistance is embedded, or of cast iron plates trapping an armored resistance. I1 is caught between two thicker refractory bricks 19 playing the role of energy accumulator, and surrounded by blocks 20 of thermal insulator in cellular concrete or similar material providing empty spaces 21 in the upper part.

 As an indication, the heating body will have a thickness of approximately 20 mm, and the refractory bricks 19 a thickness of the order of 80 mm.

 The positioning of the various constituent elements gives the object of the invention a maximum of useful effects which had not, to date, been obtained by similar known devices.

Claims (6)

 10. Electric storage heater made up of modular elements and comprising a single heating body, intended for basic or additional heating of premises of all types and which can be used both as a fixed appliance and as a mobile appliance,  characterized by the combination of modular elements (1, 2, 2 '3) provided with a vertical hollow part (7) carrying fins (10) also vertical, similar to the elements used for central water heating, and assembled from so as to form a wall or mobile storage heater with reduced overall dimensions comprising an internal cavity in which is housed a single heating body (4) of parallelepiped shape, one of these modular elements, each consisting of a single piece, being an electric power supply element (1) equipped with a bulb thermostat controlled by a button (13) accessible from the outside, terminals for connection of the heater body and a power connection cord, the equipment electric being protected from dust and moisture thanks to a tight cover closing an access hatch (22) formed of a cutout made in the internal wall of the vertical hollow part (7).  20. Device according to claim 1, characterized in that the modular elements (1, 2, 2 ', 3) comprise upper and lower horizontal tubular sections (5, 6) which can be joined together end to end, connected by the vertical hollow part (7) formed by two walls delimiting a passage between said tubular sections and carrying a front blade (8) and a rear blade (9) between which the vertical fins (10) are arranged.  30. Device according to any one of the preceding claims, characterized in that the modular elements are of three different models, a terminal element (1), one or more common elements (2) and the power supply element (1), the internal cavity (12) consisting of recesses obtained by cutouts (11) formed in the walls of the vertical hollow part (7) of the current element (s) (2) and of the terminal element (3 ), these cutouts being made in the two walls for the current elements and in the single internal wall for the terminal element, so as to thus close one end of the internal cavity, the other end being closed by the element power supply (1).  40. Device according to claim 3, characterized in that the heating body (4) consists of a brick sealed by a silicone coating, in which is embedded an electrical resistance, said brick being sufficiently thin so that the distance between its faces and the external surface of the radiator prevents any possibility of overheating of the accessible metal parts, thus making it possible to dispense with a safety device cutting off the electrical supply.  50. Device according to any one of claims 3 and 4, characterized in that it is fixed to the wall by means of special dowels (13) having an annular groove in which the rear blades (9) of two adjoining modular elements (1, 2, 3).  60. Device according to any one of claims 3 and 4, characterized in that it is mounted on chassis (14) equipped with pads (16) and / or rollers (17), and fixed to the tubular sections lower (6) using stirrups (15), said chassis being provided with counter plates (23) supporting several modular elements (1, 2, 3).  70. Device according to any one of claims 1 and 2, characterized in that it is produced by placing the heating body (4) between two series of modular elements (2 ') devoid of cutouts, connected by spacer sheets (18) forming a box constituting the internal cavity receiving said heating body, the latter being caught between two thicker refractory bricks (19) playing the role of energy accumulator, and surrounded by blocks (20) d heat insulator made of aerated concrete or similar material leaving empty spaces (21) in the upper part.  80. Device according to claim 7, characterized in that the heating body (4) has a thickness substantially equal to 20 millimeters and that the refractory bricks (19) have a thickness close to 80 millimeters.  90. Device according to any one of the preceding claims, characterized in that the modular elements (1, 2, 2 ', 3) are all produced by machining from the same existing standard element, intended for mounting water or steam central heating radiators.  100. Device according to any one of the preceding claims, characterized in that the modular elements (1, 2, 2 ', 3) are made of aluminum alloy.