WO1994004877A1

WO1994004877A1 - Electric radiator with energy accumulation modular elements

Info

Publication number: WO1994004877A1
Application number: PCT/FR1992/000788
Authority: WO
Inventors: Bernard Peyronny
Original assignee: Bernard Peyronny
Priority date: 1991-07-03
Filing date: 1992-08-11
Publication date: 1994-03-03
Also published as: EP0606247A1; DK0606247T3; ATE129801T1; DE69205838D1; FR2678717B1; ES2081628T3; DE69205838T2; GR3018769T3; FR2678717A1; EP0606247B1

Abstract

The electric radiator is comprised of modular elements (2) of the accumulation type which may be assembled as a function of the power required to form a wall-fixed or movable radiator of reduced size, the modular elements (2) being comprised of three hollow parts, a top part (10) with convection deflectors (16), a bottom part (11) supporting the modular element (2) and a central part (9) consisting of an envelope provided with vertical fins joined to the side faces accessible through a double wall (15) and limiting the touch temperature to a non-dangerous value, the central parts containing one or a plurality of refractory bricks (19) fitted with an internal electric resistor, the assembly being completed by a terminal element (1) including the electric supply as well as the control and regulation apparatuses (7, 8). The eletric radiator is intended to the main or make-up heating of premises of all types and may be used both as fixed and movable apparatus.

Description

ELECTRIC RADIATOR HAVING MODULAR ENERGY STORAGE ELEMENTS

The present invention relates to an electric radiator with modular elements with energy accumulation.

It is intended for basic or additional heating of premises of all types and can be used both as a fixed device and as a mobile device.

For space heating such as homes, offices or business premises _/ central heating systems are increasingly abandoned in favor of individual autonomous devices, due to the difficulties encountered in controlling and optimizing the energy consumption in the installations important.

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 allowing the use of electricity in economically viable conditions is to use energy storage devices. Unfortunately, existing electric storage heaters are generally bulky, expensive and of relatively high unit power, which most often means providing for a very small number of devices and sometimes even a single device for several rooms when those these are small, which does not allow a satisfactory distribution of the heat and makes lose the advantage of the flexibility inherent in electric heating.

The device according to the present invention eliminates all these drawbacks. Indeed, it makes it possible to obtain electric storage heaters in a very wide range of power, compact, of reasonable cost and which can be installed anywhere, in particular at the locations usually used for heating radiators. central classics.

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It is made up of a combination of modular storage elements, which can be assembled as required to form a wall or mobile space heater of reduced size with exactly the power

25 required, the modular elements being formed of three hollow parts preferably made of aluminum alloy, namely an upper part with convection deflectors, a lower part supporting the element and possibly being able to be fitted with rollers and a

30 central part made of refractory bricks equipped with an internal electrical resistance and contained in a covering with fins, the parts of which can be touched are provided with a double envelope limiting the temperature, the assembly being completed with an element terminal with power supply, as well as a thermostat and a programmer.

In the appended drawings, given by way of nonlimiting example of one of the embodiments of the object of the invention: FIG. 1 shows in perspective a radiator according to the invention made up of several assembled elements, 0 Figures 2 and 3 show respectively, under the same conditions, the three separate parts of a current element and the terminal element consisting of a housing and a cover, Figure 4 is a top view of part 5 central of a modular element, FIG. 5 is a vertical section of a refractory brick, according to the arrows AA of FIG. 4, FIG. 6 is a diagram in perspective 0 jumper showing the principle of electrical wiring of the elements, and the FIG. 7 represents, seen along arrow F of FIG. 1, the central part of a modular element comprising lights allowing a horizontal arrangement of the refractory bricks.

The device, FIGS. 1 to 6, consists of a terminal element 1 for electrical supply, and at least one modular element 2.

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The terminal element 1 is formed by a housing 3 with removable cover 4. The housing 3 can be coupled with a modular element 2 and has a passage 5 for the power cable, outlets 18 for the distribution cables. 6, as well as all electrical equipment such as switch, thermostat 7 or programmer 8.

The modular element is divided into three hollow parts: a central part 9, an upper part 10 and a lower part 11.

The central part consists of a tubular envelope with rectangular section and vertical axis, provided with fins 12 also vertical, and containing the active part consisting of a refractory brick 13 or similar, arranged vertically in each of the central parts 9 and equipped an internal channel through which passes an electrical resistance heater 14 with two connecting tongues 15 accessible at the base of the refractory brick 13. The fins 12 located on the accessible side faces are joined by a double wall 15 forming a cushion of air insulating and limiting the contact temperature to a non-dangerous value.

The upper part 10 is equipped with deflectors 16 channeling the hot air having passed along the fins of the central parts.

The lower part 11 serves as a support for the other two and can be fitted with feet or rollers (not shown). It has longitudinal passages 17 serving as conduits for the distribution cables 6.

The modular elements 2, as well as the terminal element 1 are preferably made of aluminum alloy and will advantageously be produced by using known elements and techniques used for modular hot water radiators, which makes it possible to significantly lower the cost price.

The radiator is assembled by assembling the three parts of each modular element 2, then by joining the upper 10 and lower 11 parts together and with the casing of the terminal element 1, in the same way as for hot water radiators, according to the "niplage" technique. Two continuous boxes are thus obtained allowing circulation and good distribution of air, a bottom box formed by the lower parts 11 and a high box formed by the upper parts 10.

The vertical refractory bricks 13 can be replaced by one or more horizontal refractory bricks 19 passing through several adjacent modular elements 2. In this case, the central parts 9 include openings 20 allowing the passage of said horizontal refractory brick or bricks (FIG. 7).

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 devices.

Claims

1 °. Electric radiator with modular elements with energy storage, for basic or additional heating of all types of premises and which can be used as both a fixed and a mobile device, characterized by the combination of modular elements (2) with storage, which can be assembled as a function of the power necessary to form a wall or mobile space-saving radiator, the modular elements (2) being formed by three hollow parts, an upper part (10) with convection deflectors (16) , a lower part (11) supporting the modular element (2) with longitudinal passages (17) serving as conduits for the distribution cables (6), and a central part (9) consisting of a tubular envelope of rectangular section and of vertical axis, provided with fins (12) also vertical joined on the side faces accessible by a double wall 15 forming an insulating air cushion limiting the te contact temperature at a non-hazardous value, the central parts containing one or more refractory bricks (13, 20) equipped with an internal electrical resistance (14), the assembly being completed by a terminal element (1) comprising the power supply, as well as control and regulation devices (7, 8).

2 °. Device according to claim 1, characterized in that the modular elements (2), as well as the terminal element (1) are made of aluminum alloy.

3 °. Device according to any one of the preceding claims, characterized in that that the modular elements (2) are produced by using known elements and techniques used for modular hot water radiators, and that the mounting of the radiator is carried out by assembling the three parts of each modular element, then by joining the upper parts (10) and lower (11) therebetween and with the housing of the terminal element (1), so as to obtain two continuous boxes allowing the circulation of air, a low box formed by the lower parts (11) and a high box formed by the upper parts (10).

4 °. Device according to any one of the preceding claims, characterized in that the lower parts (11) are equipped with feet or rollers.

5 °. Device according to any one of the preceding claims, characterized in that each of the central parts (9) contains a vertical refractory brick (13).

6 ^e . Device according to any one of Claims 1 to 4, characterized in that the central parts (9) include openings (20) allowing the passage of one or more horizontal refractory bricks (19) passing through several modular elements (2 ) contiguous.