FR2964820A1 - Electric heating apparatus for heating room, has facade and main mineral heating body respectively equipped with surface heating element and heating element, and electronics managing regulation of each heating element - Google Patents

Abstract

The apparatus (10) has a facade (12) equipped with a surface heating element (16) i.e. screen printed heating film, and a main mineral heating body (18) equipped with another heating element i.e. resistive wire. Electronics manage the regulation of each heating element, where the main mineral heating body is formed from ceramic or soapstone. The latter heating element is secured to the heating body. The body includes parallelepiped parts assembled together with an insulating joint i.e. silicone joint, at junction, where the latter heating element is housed between the parts.

Description

HEATING APPARATUS WITH TWO HEATING ELEMENTS

The present invention relates to an electric appliance with two heating elements. The invention relates in particular to a dry type electric heater. It is known from EP 2 063 197 an electric radiator comprising a body provided with an internal cavity. Inside the internal cavity is provided an electric heating element. This heating element consists, for example, of an electrical resistance incorporated into a prismatic block. The prismatic block consists of a suitable material such as a mineral material, composite or refractory, or stone. Moreover, FR 2 816 396 teaches an electric radiator with fluid energy storage and steatite of modular structure. Each of the modular elements comprises a central hollow part of substantially elongate shape extending over most of the height of the radiator. This hollow part comprises an internal cavity emerging in its lower part in a lower tube section. The internal cavity is filled with a heat transfer fluid providing thermal conduction between resistive means and the central hollow parts of the radiator. The resistive means, for example cylindrical type resistors, are inserted into the lower sections of tube used to assemble the various modular elements of the radiator. A plate of soapstone is inserted between each of the modular elements, on the side of a rear face, to accumulate thermal energy and continue to restore it without consuming more energy.

It is also known from FR 2 793 642 a heater comprising at least two heating elements which can operate according to various known modes, for example by radiation, by natural or forced convection, or by accumulation. FR 2 793 642 does not describe more precisely the structure of the heating elements.

However, there is a need for a new type of electric heater with two heating bodies including a great comfort for the user, a fast heating time, good thermal inertia, precise control and increased safety of the user. 'user. For this, the invention provides an electric heater comprising a facade equipped with a first heating element, a main mineral heating body with a second heating element, and an electronic management of the regulation of each heating element. In accordance with preferred embodiments, the electric heating apparatus according to the invention comprises one or more of the following: the following features, taken alone or in combination: - the main mineral heating body is steatite stone or ceramic; the second heating element is integrated in the main mineral heating body; the main mineral heating body comprises two parts assembled together with an insulating joint at the junction, the second heating element being housed between the two parts; the first heating element is of the surface type; the first heating element has a surface corresponding to at least 50% of the surface of the facade; the first heating element is a screen-printed heating film; - The first heating element is worn near the facade or on the facade; - the facade is composed of modular elements; - The apparatus further comprises a hood supporting the main mineral body heater, the hood and the facade being fixed together; - the hood is a stamped sheet; and the hood is formed of modular elements comprising a hollow in which is the main mineral heating body. Other features and advantages of the invention will appear on reading the following detailed description of embodiments of the invention, given by way of example only and with reference to the drawings which show: FIG. schematic partially cut away from a first embodiment of an electric heater; - Figure 2, a schematic exploded view of a second embodiment of an electric heater; - Figures 3 and 4, a view of a mineral heating body that can be implemented in the first and second embodiment, respectively open and closed. As shown in Figure 1, a heater 10 has a front 12 attached to a cover 14. The front 12 is equipped with a first heating element 16 to form a heating front. This first heating element 16 has a maximum temperature between 50 and 100 ° C, preferably between 50 and 70 ° C to limit the temperature of the facade and thus avoid the risk of accidents. This first heating element 16 is preferably arranged close to the facade 12, that is to say to a R: 131900A31958 THP / 31958--100908-application tq filed.doc - 09/09/10 - 14:09 - 2/9 distance less than 10 mm, preferably less than 5 mm from the front. In this case, the facade 12 supports the first heating element 16 which is bonded to the facade 12. The first heating element 16 is preferably of the surface type, that is to say, adapted to heat a surface (in one embodiment). species facade) at a temperature substantially constant over the entire surface. More preferably, the first heating element 16 has a surface corresponding to at least 50% of the surface of the facade 12 to ensure a homogeneous heating of the facade 12.

Here, for example, the first heating element 16 is made in the form of a screen-printed resistive film bonded to the surface of the facade oriented towards the cover 14 (or "inner face"). Of course other heating elements known to those skilled in the art can be implemented to achieve the heating front. Thus, a hot plate and radiant aluminum could be implemented. The cover 14 is in this case stamped sheet. The cover 14 can thus be made for a reduced cost. The cover 14 forms a recess which delimits with the facade housing. Inside this housing, the cover 14 supports a main mineral heating body 18.

This mineral main heating body 18 is shown in more detail in FIGS. 3 and 4. The main mineral heating body 18 comprises in this case two parallelepipedal portions 221, 222 made of mineral material. This mineral material may in particular be ceramic or natural stone, including steatite stone. Steatite stone in particular has a high heat capacity compared to cast iron. These two parallelepipedal blocks enclose a second heating element, here made in the form of resistive wires 26. A silicone gasket 28 is provided between the two parallelepipedal blocks, which ensures the electrical insulation of the resistive wires 26 sandwiched between the two parallelepipedal blocks 221. 222. The silicone seal 28 also provides the mechanical connection between the two parallelepiped blocks 221, 222 and the seal between these two blocks. The mineral material, besides its high thermal capacity, thus offers excellent electrical insulation of the second heating element, particularly in comparison with the case where the main heating body is made of cast iron.

In the case where the heating body is cast iron, the resistive wire is embedded in magnesia to form an insulating tube, before being inserted into the cast iron heating body. However, the thickness of this insulating tube is generally insufficient to ensure electrical insulation in compliance with safety standards, in particular R: 131900A31958 THP \ 31958--100908-application tq filed.doc - 09/09/10 - 14:09 - 3/9 in accordance with the NF EN 60-335-1 standard of 2006 relating to the "safety of household and similar electrical appliances". According to this standard, it is necessary to perform a second electrical insulation of the heating element relative to the outside, at the fastening, on the hood of the electric heating apparatus, the heating body. This second insulation complicates the fixing of the heating element on the hood of the electrical appliance. On the contrary, when the two parallelepipedal parts are made of mineral material, in particular stone, the insulation of the electric wire is achieved thanks to the thickness of the stone itself and the silicone seal. In the case of Figures 3 and 4, the silicone seal has a thickness typically between 2 and 4 mm. The parallelepiped blocks have a thickness of between 10 and 20 mm. Therefore, the parallelepipedal blocks and the silicone seal have a thickness sufficient to provide insulation of the heating element relative to the outside of the electric heater, which complies with safety standards. Fixing the set composed of the electric wire and the two stone parts on the hood is easier. It should be noted here that the main mineral heating body can be monobloc, especially in the case where the main heating body is ceramic. In the latter case, the heating element can then, by way of example, be made in the form of an electric wire embedded in the ceramic before forming it by pressing. Alternatively, the electric wire may extend into holes drilled in the main mineral heating body. In both cases, the thickness of the mineral heating body is such that it provides sufficient insulation to comply with the safety standards mentioned above, the heating element. The electric heater 10 thus comprises two heating elements: a first heating element, associated with the front of the electric heater and which provides about 25-30% of the heating power of the electric heater. ; and - a second heating element associated with a mineral heating body 18. This is the main heating element. It provides about 70-75% of the heating power of the electric heater 10. Indeed, as a user can touch the facade 12 of the electric heater, this facade should not be too hot. The heating by means of the first heating element must therefore be limited, preferably to a temperature of between 50 and 70 ° C. This limited temperature of the facade also increases the sensation of gentle heat for the user. R: 131900A31958 THP \ 31958--100908-application tq deposited.doc - 09/09/10 - 14:09 - 4/9 The facade preferably operates at a substantially constant heating temperature to form a permanent hot spot and for ensure a distribution of the most homogeneous temperature possible. The comfort of the user is further increased by the fact that the facade heats by radiation and that the radiation of the facade is distributed throughout the room. On the contrary, the second heating element, namely the mineral heating body, is not accessible by a user. This heating body can therefore provide a greater amount of heat without risk to the safety of the user. This second heating element provides most of the heating power of the electric heating apparatus, mainly by natural convection. The heating apparatus 10 further comprises an electronic management of the regulation of each heating element 16, 26. The management electronics makes it possible to control each heating element independently of one another. Thus, if the electric heating apparatus is faced with a large heating demand, the maximum heating power is used to heat the room. This can result in the fact that the two heating bodies are switched on and controlled simultaneously at their maximum power to meet the demand as quickly as possible. On the contrary, to regulate the temperature of the heating apparatus around a set value, the management electronics rather control a modulation of the heating power provided by the first surface heating element, associated with the facade. Indeed, because of the thermal inertia of the mineral material, the mineral heating body continues to heat by natural convection, and this even if the second heating element is off. The modulation of the power supplied by the first heating body allows a gain in reactivity with respect to an electric heating apparatus comprising only a heating element associated with steatite stone elements which then has a high thermal inertia. The electric heater thus gains in control accuracy. This greater accuracy of the regulation further increases the comfort of the user.

In addition, compared to an electric heating apparatus comprising a heating element associated with cast iron parts, the electric heating apparatus 10 has a better thermal storage capacity, because of the use of steatite, which has better heat capacity. FIG. 2 shows an electric heating apparatus 100 according to a variant of the heating apparatus of FIG. 1. The identical or identical function elements of this variant bear the same reference sign as in FIG. 1 and are not described again in the following. A: 131900A31958 THP \ 31958--100908-application tq filed.doc - 09/09/10 - 14:09 - 5/9 The electric heater 100 according to Figure 2 differs from the electric heater according to Figure 1 in that it comprises a cover 14 formed of modular elements 140 fixed to each other. The modular elements 140 comprise a recess 142 in which is the main mineral heating body 18. The operation of the electric heater 100 is identical to the operation of the heater 10 of FIG. 1. Of course, this The invention is not limited to the examples and embodiments described and shown, but it is capable of numerous variants accessible to those skilled in the art. In particular, the cover can be made in the form of a single piece and one-piece or in the form of a modular assembly of a plurality of elements. Similarly, the facade can be made in the form of a single piece and one-piece or in the form of a modular assembly of a plurality of elements.

Furthermore, the first heating element associated with the facade to form a heating facade can be fixed, in particular glued, on the main mineral heating body. R: 131900A31958 THP \ 31958--100908-application tq filed.doc - 09/09/10 - 14:09 - 6/9

Claims (12)

REVENDICATIONS1. Electric heater (10; 100) comprising - a facade (12) equipped with a first heating element (16), - a main mineral heating body (18) with a second heating element (26), and - an electronic controlling the regulation of each heating element (16; 26). 2. The apparatus of claim 1, wherein the main mineral heating body (18) is steatite stone or ceramic. 3. The apparatus of claim 1 or 2, wherein the second heating element (26) is integrated in the main mineral heating body (18). The apparatus according to claim 3, wherein the main mineral heating body (18) comprises two portions (221, 222) assembled together with an insulating joint (28) at the junction, the second heating element (26) being housed between the two parts (221, 222). 5. The apparatus according to one of the preceding claims, wherein the first heating element (16) is of the surface type. 6. The apparatus of claim 5, wherein the first heating element (16) has a surface area corresponding to at least 50% of the surface of the facade (12). The apparatus of claim 5 or 6, wherein the first heating element (16) is a screen printed heating film. 8. The apparatus according to one of the preceding claims, wherein the first heating element (16) is carried near the facade (12), or on the facade 25 (12). 9. The apparatus according to one of the preceding claims, wherein the facade (12) is composed of modular elements. R: 131900A31958 THP \ 31958--100908-application filed.doc - 09/09/10 - 14:09 - 7/9 10. The apparatus according to one of the preceding claims, further comprising a hood (14) supporting the main mineral heating body (18), the hood (14) and the front (12) being secured together. 11. The apparatus according to the preceding claim, wherein the cover (14) is a stamped sheet. The apparatus according to claim 10, wherein the hood (14) is formed of modular elements (140) comprising a recess (142) in which is the main mineral heating body (18). R: 131900A31958 THP \ 31958--100908-application tq filed.doc - 09/09/10 - 14:09 - 8/9