• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a domestic electric heating appliance comprising at least one vertical upright on which is fixed at least one hollow bar (3) having two longitudinal edges (32a, 32b) and two transverse edges, an electric heating element (4) ) being housed in said bar, and wherein: - the electric heating element (4) is a cord having a double electrical insulated sheath, which cord is formed of two straight heating sections (4a, 4b) connected by a curved section (4c), which curved section (4c) has a thickness less than that of the rectilinear sections, - the bar (3) comprises arrangements (31a, 31b) for each receiving one of the rectilinear sections (4a, 4b) of the cord (4 ), and an arrangement for receiving the curved portion (4c) so that the assembly of said cord is housed in said bar.
    公开号:FR3036466A1
    申请号:FR1554549
    申请日:2015-05-21
    公开日:2016-11-25
    发明作者:Philippe Blouin;Raphael Viennet
    申请人:Texas de France SAS;
    IPC主号:
    专利说明:

    [0001] 1 DOMESTIC ELECTRICAL HEATING APPARATUS HAVING AT LEAST ONE FLAT HOLLOW BAR IN WHICH A HEATING ELECTRIC ELEMENT IS LOADED Description Technical field of the invention. The subject of the invention is a domestic electric heating appliance comprising at least one hollow bar in which is housed an electric heating element. It relates to the technical field of electric heating systems intended to be installed in a dwelling or offices, and more particularly, but not exclusively, the technical field of towel warmers. 20 State of the art. An electric towel rail generally comprises one or more hollow and flat drying bars arranged horizontally and fixed on one or two vertical uprights, each drying bar contains an electric heating element. The electric heating elements have a growing interest due, in particular, to their rapid rise in temperature, which reduces the heating time and, therefore, the electrical consumption, and the obtained thermal homogeneity, in addition to an optimal drying of the heating elements. towels or other linen, excellent thermal comfort felt by users. The heating elements, or cores - or heating body - are independent and housed respectively inside the hollow bars, these elements being electrically connected to a power supply via a control and regulation box (thermostat regulating the duration and or the heating temperature) associated, for example, with one of the uprights.
    [0002] The standards in force require to provide a double electrical insulation of the heating elements. However, the flat metal bars, rectangular in cross section, hollow, leave only a small distance (about ten millimeters) between their opposite walls, parallel. This reduced distance does not allow to obtain a sufficient distance in the air for double electrical insulation of the heating elements. Also, flat drying bar towel warmers must be equipped with double insulation electric heating elements.
    [0003] US Pat. No. 4,204,316 (ACRA ELECTRIC) or US Pat. No. 3,808,573 (EMERSON ELECTRIC) disclose heating elements comprising a bare resistive wire wound around an insulating support sheet. Two other insulating sheets sandwich the resistive wire support sheet, covering it completely to achieve a first electrical insulation. The second electrical insulation is obtained by insulating pieces or spacers between the metal body of the radiator and the two sheets of the heating core. Although the use of a resistive wire is interesting because it is inexpensive and resistant to a high temperature, this heating element with double electrical insulation is not particularly suitable for drying thin and flat drying bars -napkins. Indeed, because of a global footprint 336 too large, the heating element is difficult to lodge inside the hollow and flat bars. On the other hand, some models of electric towel rails have flat, curved drying bars, which requires heating elements having a certain flexibility to adapt to the curvature imposed by the drying bars. In addition, the electrical insulation of this type of heating element is no longer ensured when water or water vapor appears in the hollow bar. The present invention aims to overcome these disadvantages. In particular, the object of the invention is to provide an electric heater whose design makes it possible to guarantee the electrical insulation of the heating element. Another object of the invention is to allow easy mounting of the heating element inside a hollow bar and flat, despite the small thickness and / or the curvature of the latter. A further object of the invention is to increase the life of the heating elements installed in the bars.
    [0004] Still another object of the invention is to optimize the heat transfer between the heating element and the bar. Another object of the invention is to provide a towel warmer whose design is simple and the assembly quick. Disclosure of the invention.
    [0005] The solution proposed by the invention is a domestic electric heating appliance comprising at least one vertical upright on which at least one hollow, flat bar is attached having two longitudinal edges and two transverse edges, an electric heating element being housed in said bar. This apparatus is remarkable in that: the electric heating element is a flexible cord having a double electrical insulated sheath, which bead is formed of two straight heating sections connected by a curved section, which curved section has a thickness less than those of the rectilinear sections, the bar comprises arrangements for receiving each one of the rectilinear sections of the cord, and an arrangement for receiving the curved section, so that the whole cord is housed in said bar. The use of such a heating cord ensures double electrical insulation, even if water or water vapor enters the bar. It also allows easy mounting of the cord in the bar, even if it is thin and / or curved. In addition, thanks firstly to the configuration of the heating cord, and secondly to the arrangements provided in the bar, all the sections of the cord are fully housed inside the bar, which has the effect of locate and focus calorie dissipation only in the bar. Other advantageous features of the invention are listed below. Each of these features may be considered alone or in combination with the remarkable features defined above, and may be the subject, where appropriate, of one or more divisional patent applications: Preferably, the bar comprises two housing units internal to the longitudinal edges, the rectilinear sections of the cord being respectively housed in one of said housing, the curved section being located at one of the transverse edges of said bar; the two internal housings are separated by at least one partition whose summit edge is distant from the inner wall of said bar; the distance between the inner wall of the bar and the top edge of the partition is greater than or equal to the thickness of the curved section and less than the respective thickness of each rectilinear section so that the said curved section fits into the space separating said summit ridge from said inner wall, said partition preventing rectilinear sections from leaving their respective housing. - The two inner housings are separated by two parallel partitions each having a summit ridge remote from the inner wall of the bar; the partitions define a central channel on either side of which the two dwellings are located; and the distance between the inner wall of the bar of the top edge of the partitions is greater than or equal to the thickness of the curved section and less than the respective thickness of each rectilinear section so that said curved section is housed in the space separating said inner wall from the top edges, said partitions preventing rectilinear sections from leaving their respective housing. - A temperature probe and / or a thermal circuit breaker, can be housed in the central channel, the thickness of the probe and / or the thermal circuit breaker being greater than the distance between the inner wall of the bar and the top edges of the partitions . 20 - The two inner housings can be separated only by a single partition. - Advantageously, the curved section is located at one of the transverse edges of the bar, which transverse edge is closed by a plug which holds in position said curved section in said bar. The rectilinear sections of the bead may each be associated with a heat sink, which dissipators are installed in the bar so as to be in intimate contact with the inner wall of said bar. - The bar is preferably formed by an extruded profile. Preferably, the rectilinear sections of the bead are each formed by a flexible heating cord having a double electrical insulated sheath, which cords are connected together by a non-heating flexible electric cable having a double electrical insulated sheath and forming the curved section. In an alternative embodiment, the rectilinear sections of the bead are each formed by a flexible heating cord having a double electrical insulated sheath, which cords are connected to each other by a flexible heating cord having a double electrical insulation sheath and forming the curved section. - The rectilinear sections of the cord may have the same thickness or different thicknesses. The curved portion of the bead is preferably located at one of the transverse edges of the bar; and orifices are formed in the bar at the transverse edge which is located opposite the transverse edge where the curved section is located, the straight sections terminating in electrical connection ends coming out of said bar through said orifices. The apparatus is preferably an electric towel rail, the bars being drying bars. Description of the figures.
    [0006] Other advantages and features of the invention will appear better on reading the description of a preferred embodiment which will follow, with reference to the appended drawings, carried out as indicative and non-limiting examples and in which: FIG. 1 is a front view of a towel dryer according to the invention, FIG. 2 is a diagrammatic view in longitudinal section of a bar according to the invention, FIG. 3a is a diagrammatic view. in section along AA of the bar of Figure 2, said bar being associated with a pillar of the towel rail, - Figure 3b is a partial enlarged view of Figure 3a showing in detail the connection between the bar and the amount, FIG. 4 is an exploded view showing the various elements constituting a bar according to the invention, FIG. 5 is a perspective view of a heating cord according to the invention, FIG. 6. shows the heating cord of FIG. 5, each rectilinear section being associated with a heat sink; FIG. 7 is a perspective view of a curved bar according to the invention; FIG. 8 is an enlarged view of the section along BB of the bar; Fig. 9 is an enlarged view of the section along BB of the bar of Fig. 2, in an alternative embodiment; Fig. 10 is an enlarged view of the section along BB of the bar of Fig. 2; Figure 2, in another embodiment.
    [0007] Preferred embodiments of the invention. Figure 1 shows an example of towel rail 1 according to the invention.
    [0008] This towel rail 1 comprises a vertical upright 2 or mast, which is used as a wall support, for example. In FIGS. 3a and 3b, the upright 2 consists of a hollow section, preferably made of a light alloy of the aluminum type, but which may be made of another rigid material such as a composite material. It has for example a width of between 2 cm and 20 cm and a height of between 50 cm and 250 cm. Fixing means 20 (FIGS. 3a and 3b) make it possible to hang the upright 2 on a wall, for example a wall, a door or a wall shelf. These fastening means 20 may be in the form of a rail adapted to receive one or more fastening tabs.
    [0009] One or more flat drying bars 3 are fixed on the upright 2. These bars 3 are arranged horizontally and parallel to each other. A transverse end of the bars 3 is secured to the upright 2 by any suitable fastening means such as interlocking, welding, screwing, etc.
    [0010] The bars 3 have, in the representation illustrated in the appended figures, a substantially rectangular, elongated, straight (FIGS. 1 to 4) or slightly curved (FIG. 7) shape, with a hollow and flat rectangular cross section. Thus, the opposite and parallel side walls 30 of each bar 3 10 provide a large heating surface compared to bars of circular cross section. The side walls 30 may be smooth or have elements in relief, such as corrugations, these elements in relief for increasing the heat exchange surface. Each bar 3 has two longitudinal edges 32a, 32b and two transverse edges 33. These edges 32a, 32b, 33 delimit with the side walls 30, an internal space forming a housing or cavity 31 for the reception and the assembly 20 of the electric element The bars 3 are preferably made of a heat conducting material, typically steel, cast iron, zinc alloy (Zamak) or aluminum. They could however be made of a non-metallic material of the polymer or composite type. By way of example, their length (distance between the transverse edges 33) varies from 15 cm to 1 m, their height (distance between the longitudinal edges 32a, 32b) varies from 5 cm to 20 cm, and their thickness (distance between the side walls 30) varies from 2 mm to 2 cm.
    [0011] The bars 3 are preferably obtained by an extrusion process, and therefore each formed by an extruded profile. The direction of the extrusion is parallel to the longitudinal edges 32a, 32b. The bar 3 being extruded, the transverse edges 33 are open. They are closed by removable caps 330 which can be made of a plastic material. In practice, these plugs 330 are interlocked in arrangements 3300 provided for this purpose in the bar 3 (Figures 8 to 10). In the example illustrated in Figure 1, the bars 3 are arranged in several separate groups, so that the spacing between these groups allows the establishment of several towels. On the other hand, the vertical upright 2 is, 10 meanwhile, in rigid connection with all the groups of bars 2. As regards the control and regulating block 6 - or thermostat - acting in particular on the duration and the operating power of the towel dryer 1, it is attached to the upright 2, preferably in the upper part of the latter, which facilitates its use while being located in height. Each bar 3 encloses a heating element 4. As can be seen in FIG. 1, the various heating elements 4 are connected to one another, preferably in series, and to the thermostat 6. The electric cables 61 making it possible to feed the heating elements 4 pass through. In the inner cavity of the upright 2. As shown in FIG. 5, the heating element 4 is in the form of a flexible cord having a double electrical insulated sheath. In practice, the cord 4 comprises an electrical resistor surrounded by a double silicone-based flexible sheath. This design makes it possible to satisfy the reduced space requirements imposed by the flat bars 3 and the standards in force imposing double electrical insulation. In addition, the cord 4 intrinsically having a double electrical insulation, the latter is kept even if water or water vapor is introduced inside the bar 3. therefore not necessary to provide a special seal at the plugs 330, which simplifies the design and reduce manufacturing costs.
    [0012] The cord 4 is formed of two straight heating sections 4a, 4b connected by a curved section 4c. By "rectilinear" means that the sections 4a and 4b extend in the length of the bar 3 being parallel to, or substantially parallel to, the longitudinal edges 32a, 32b. When the cord 4 is installed in the bar 3, it takes the form of a U.
    [0013] The rectilinear sections 4a, 4b are connected, at one of their ends, to the curved section 4c, the connections being insulated and sealed by heat-shrinkable sheaths 40. Their other end is connected to a power supply cable 61 which allows the connection of the cord 4 to the other 15 cords of the apparatus 1 and / or the thermostat 6. The connections to the power supply cables 61 are also insulated and sealed by heat-shrinkable tubes 40. The cables 61 are non-heating cables . As shown in FIGS. 3b, 4 and 7, ports 610 are provided in bar 3 to pull cables 61 out of said bar. The orifices 610 are located at the transverse edge 33 which is located opposite the other transverse edge 33 where is located the curved section 4c. In Figures 2, 3a and 4, once the cord 4 is installed in the bar 3, the rectilinear sections 4a, 4b extend over the entire length of said bar. Their length corresponds substantially to that of the bar 3. By "substantially" is meant that the length of the rectilinear sections 4a, 4b is equal to or slightly smaller, for example a few millimeters or a few centimeters, than that of the bar 3.
    [0014] 3036466 The curved section 4c extends in turn in the height of the bar 3. Its length substantially corresponds to the height of the bar 3. By "substantially" is meant that the length of the curved section 4c is equal, slightly lower, for example a few millimeters or a few centimeters, at the height of the bar 3. The length of the curved section 4c may however be greater than the height of the bar 3 to the extent that said section is curved. The rectilinear sections 4a, 4b are each formed by a flexible heating cord having a double electrical insulated sheath of the type comprising an electrical resistor surrounded by a silicone-based flexible double sheath. These cords have a circular section, and have a diameter - or thickness - for example between 4 mm and 10 mm, this thickness being less than that of the bar 3. They could have a square section, rectangular oval, or other.
    [0015] The rectilinear sections 4a, 4b are preferably identical to dissipate the same heating power, and have the same thickness. They could however have different thicknesses, so they do not provide the same heating power. For example, the rectilinear section 4a which is located at the upper longitudinal edge 32a of the bar 3, can provide a heating power greater than that provided by the rectilinear section 4b which is located at the lower longitudinal edge 32b. Indeed, in use, a towel or a wet cloth is intended to rest on the upper longitudinal edge 32a and there may be an advantage in further heating this edge and / or the area of the side walls 30 located near this edge. In fact, the rectilinear section 4a may have a thickness greater than the rectilinear section 4b. The curved section 4c is preferably in the form of a flexible non-heating electric cable. This cable has a double insulated electrical sheath to meet the requirements of the standards in force requiring double electrical insulation. It connects the straight sections 4a and 4b together. This electrical cable has a circular section, and has a diameter - for example, between 1 mm and 5 mm, this thickness being lower than that of the bar 3. It could have a square section, rectangular oval , Or other.
    [0016] As shown in the accompanying figures, the curved section 4c is located at one of the transverse edges 33 of the bar 3. From a practical point of view, it is not necessary to heat this transverse edge 33 to drying a towel or a wet cloth installed on the bar 3. The heating of the side walls 30 is sufficient. The use of a non-heating curved section 4c therefore avoids unnecessarily heating this transverse edge 33 and the plug 330 which closes it. However, if it were useful, one could consider using a heated curved section 4c to dissipate calories at the transverse edge 33. In this case, the curved section 4c is in the form of a flexible heating cord having a double insulated electrical sheath of the type comprising an electrical resistor surrounded by a double silicone-based flexible sheath. This cord has a circular section, and has a diameter - or thickness - for example between 1 mm and 5 mm. It could have a square section, rectangular oval, or other.
    [0017] That the curved section 4c is in the form of a non-heating electric cable or a heating cord, its thickness or diameter is less than that of the rectilinear sections 4a, 4b.
    [0018] The cords 4 are preferably supplied with 24 volts or 230 volts. Their respective heating power is for example between 25 W and 2000 W. The heating is distributed in all the bars 3 and thus allows a good distribution, and therefore a better optimization, of the heating power of the towel rail 1. The bar 3 comprises arrangements for receiving each of rectilinear sections 4a, 4b. Another arrangement is provided to receive the curved section 4c. As will now be described in more detail, these arrangements are arranged so that the entire cord 4 is fully housed in the cavity 31 of the bar 3. In Figure 8, the bar 3 has two internal housings 31a, 31b. These housings are parallel to the longitudinal edges 32a, 32b and extend over the entire length of the bar 3. They may be located at the longitudinal edges 32a, 32b or more offset towards the middle of the side walls 30 as it appears on the appended figures. They each receive one of the rectilinear heating sections 4a, 4b. These housings 31a, 31b have a rectangular or square section. Their height and width can be adjusted to the thickness of the rectilinear sections 4a, 4b so that the latter are kept tight in the housings 31a, 31b. This configuration has the advantage of keeping the rectilinear sections 4a, 4b pressed against the inner wall of the bar 3, thus promoting the transfer of heat towards the side walls 30. In FIG. 8, the section of the housings 31a, 31b has dimensions greater than the thickness of the rectilinear sections 4a, 4b. This facilitates the establishment of rectilinear sections 4a, 4b which just have to be slid into their respective housing 31a, 31b. The two inner housings 31a, 31b are separated by two parallel partitions 34a, 34b which define a central channel - or channel - on either side of which are located said two housings. The partitions 34a, 34b are parallel to the longitudinal edges 32a, 32b and extend over the entire length of the bar 3. They are spaced from each other by a distance for example between 2 mm and 30 mm. They have a thickness that corresponds substantially to the thickness of the side walls 30. They are obtained during the extrusion of the profile forming the bar 3, the extrusion die being configured to conform the arrangements of the cavity 31. The partitions 34a, 34b extend perpendicularly to the direction of extrusion, that is to say perpendicular to the side walls 30. However, they do not extend throughout the thickness of the bar 3. Indeed they each have a top edge 340a, 340b which is distant from the inner wall of the bar 3.
    [0019] The distance between the inner wall of the bar 3 and the top edges 340a, 340b is greater than or equal to the curved section thickness 4c, but smaller than the respective thickness of each straight section 4a, 4b. For example, a distance of between 3 mm and 4 mm is compatible with a curved section 4c having a thickness of 2 mm to 3 mm, and rectilinear sections 4a, 4b having a thickness of 5 mm to 6 mm. This geometry is particularly advantageous insofar as the rectilinear sections 4a, 4b remain positioned in their respective housing 31a, 31b. Indeed, their thickness being greater than the distance 'd', the partitions 34a, 34b prevent them from leaving their housing 31a, 31b. The two rectilinear sections 4a, 4b are thus constantly separated to avoid any overheating zone which would cause premature aging of the bead 4. In addition, the curved section 4c can be housed in the space between the inner wall of the bar 3 and the summit ridges 340a, 340b. The cap 330 keeps in position the curved section 4c in this space. All the cord 4, including the curved portion 4c, can thus be housed inside the bar 3. This is particularly advantageous insofar as the transverse edge 33 of the bar 3 where the curved section 4c is located can be easily closed by a cap 330 and left free, without it being necessary to fix it to a second vertical upright to accommodate a portion of the cord 4 that would come out of this transverse edge 33. A temperature sensor 5 and / or a thermal circuit breaker can be housed in the central channel delimited by the two partitions 34a and 34b. The temperature sensor 5 and the thermal circuit breaker must be remote from the rectilinear heating sections 4a, 4b to be able to correctly measure the temperature of the bar 3. It is therefore appropriate that they can not leave the central channel. For this reason, it is expected that the thickness of the probe 5 and / or the thermal circuit breaker is greater than the distance d above. The central channel therefore has a dual function: it not only keeps the two rectilinear sections 4a and 4b apart, but also serves as a housing for any type of measuring device and / or safety device.
    [0020] In the embodiment of FIG. 9, the two internal housings 31a, 31b are separated by a single partition 34. The latter is similar to the partitions 34a, 34b previously described and obtained during the extrusion of the profile forming the bar 3. It is parallel to the longitudinal edges 32a, 32b and extends over the entire length of the bar 3. It is located in the middle of the side walls 30 and has a thickness which corresponds substantially to the thickness of the latter. The partition 34 extends perpendicularly to the extrusion direction of the bar 3, that is to say perpendicularly to the side walls 30, without however extending throughout the thickness of said bar. It has indeed a top edge 340 which is distant from the inner wall of the bar 3. The distance 'd between the inner wall of the bar 3 of the top edge 340 is greater than or equal to the thickness of curved section 4c, but less than the respective thickness of each rectilinear section 4a, 4b. For example, a distance d between 3 mm and 4 mm is compatible with a curved section 4c having a thickness of 2 mm to 3 mm, and rectilinear sections 4a, 4b having a thickness of 5 mm. at 6 mm. As already mentioned above, the partition 34 prevents the rectilinear sections 4a, 4b from coming out of their respective housing 31a, 31b, and allows the curved section 4c to be housed in the space situated between the internal wall of the bar 3 and the top edge 34, at one of the transverse edges 33. In this configuration with a single partition 34, the entire cord 4 can be fully housed in the bar 3.
    [0021] As previously mentioned, in order to minimize the temperature rise of the bead 4, and to promote the transfer of the calories to the side walls 30, it is advantageous for the heating sections 4a and 4b to be in contact with the inner wall of the bead. bar 3, at least at one of the side walls 30, more particularly that which, in use, is not located opposite a wall or a support, but which faces the user (the side wall 30 which is visible in Figure 1). Also, when the housing section 31a, 31b has dimensions greater than the thickness of the rectilinear sections 4a, 4b, it is expected that the latter are each associated with a heat sink 7.
    [0022] Referring to the embodiment of FIGS. 4, 6 and 10, each dissipator 7 is made of two parts 7a and 7b made of a heat-conducting material of the type mentioned above with reference to bar 3. The two parts 7a and 7b 7b can be made of the same material or in different materials so as to favor the diffusion of calories towards one or the other of said parts, and in practice to that which is in contact with the inner wall of the bar 3 The first part 7a consists of an elongate piece, for example obtained by molding, stamping or extrusion, and whose length corresponds to that of the rectilinear sections 4a, 4b. It is designed so that its outer surface is intimate contact with the inner wall of the bar 3 which is vis-à-vis one of the side walls 30 and has a profile coinciding with that of said wall internal. The first part 7a comprises a flat surface whose width corresponds to that of the inner housings 31a, 31b. Its internal structure is adapted to receive a rectilinear section 4a, 4b. A groove is for example provided for this purpose, which groove is made along the entire length of the first portion 7a and comprises a complementary section of the rectilinear section 4a, 4b. In this way, the inner surface of the groove is in continuous contact with the heating outer surface of the rectilinear section 4a, 4b.
    [0023] The second portion 7b is adapted to assemble with the first portion 7a. To simplify the design and assembly / disassembly of the various elements, the two parts 7a, 7b are fixed to each other by a removable connection type obstacle connection (eg clipping).
    [0024] The second part 7b also consists of an elongate piece obtained by molding, stamping or extrusion. Its length corresponds to that of the first part 7a and corresponds substantially to that of the bar 3. The outer surface of the second part 7b can be in intimate contact with the inner wall 20 of the bar 3, but this is not necessary for a satisfactory and acceptable transfer of calories to only one of the sidewalls 30 of said bar. The internal structure of the second portion 7b comprises a second longitudinal groove formed along the entire length of said second portion. The section of this groove is complementary to that of the rectilinear section 4a, 4b. In this way, the inner surface of the groove is in contact with the heating outer surface of the rectilinear section 4a, 4b and covers the portion of said outer surface left free by the first groove of the first portion 7a. In fact, the two grooves form a housing for the rectilinear section 4a, 4b, and cooperate in such a way that the entire external heating surface of said sections is in continuous contact with the body of the dissipator 7. set formed by the association of a dissipator 7 and a rectilinear heating section 4a, 4b, constitutes a heating core. The cord 4 comprising two rectilinear sections 4a, 4b, each bar 3 thus encloses two parallel heating cores, arranged one above the other. This makes it possible to have a homogeneous distribution of the temperature over the entire surface of the side wall 30. The dissipators 7 and their various parts 7a, 7b are preferably made of aluminum. This material gives them a certain malleability which makes it possible to insert them manually into a curved bar. They take the curvature of the bar 3 which immobilizes them in their respective housing 31a, 31b and prevents the second part 7b to disengage from the first part 7a. This double heating core is easily inserted into the bar 3 by sliding each heating core 7 / 4a and 7 / 4b into its respective housing 31a, 31a from one of the transverse edges 33, until the curved section 4c is housed in said bar by passing above the partitions 34, 34a, 34b. The two cables 61 are then passed through the orifices 610 and then connected to the thermostat 6 which supplies them and / or to the other cables 61 of the other cords 4 of the towel rail 1.
    [0025] This connection is preferably made inside the upright 2, the latter comprising orifices 210 situated vis-à-vis the orifices 610 when the bar 3 is fixed on said upright (FIG. 2). To limit manufacturing costs, the heatsinks 7 can be removed (FIGS. 8 and 9). In this case, each straight rectilinear section 4a, 4b constitutes a heating core. The cord 4 thus still forms a double heating core. The introduction of this dual heating core in the bar 3 is identical to that described in the previous paragraph. To minimize the temperature rise of the cord 4, and to promote the transfer of the calories to the side walls 30, it is expected that the section of the housings 31a, 31b has dimensions equal to or less than the thickness of the rectilinear sections 4a, 4b so that the latter are in contact with the inner wall of the bar 3, at least at one of the side walls 30, more particularly the side wall 30 which is visible in Figure 1.
    [0026] The invention which has just been described with reference to the towel rail 1, and in particular the cord 4, applies to other types of domestic electric heaters such as fixed or mobile booster radiators having heating bars, the cords 4 being inserted into these bars.
    [0027] The arrangement of the various elements and / or means and / or steps of the invention, in the embodiments described above, should not be understood as requiring such an arrangement in all implementations. In any event, it will be understood that various modifications may be made to these elements and / or means and / or steps without departing from the spirit and scope of the invention. In particular: - a single bar 3 can be fixed on the upright 2, - several bars 3 can be fixed between two or more parallel uprights, - the bars 3 can be arranged at regular intervals along the upright 20 2, - the Bars 3 may be obtained by any manufacturing method suitable for those skilled in the art, in particular by molding, in one or more parts which are assembled, the plugs 330 may be made of metal or of any other material suitable for Those skilled in the art - the different heating elements 4 may be connected in parallel - the rectilinear section 4a may have a thickness less than the rectilinear section 4b - the housings 31a, 31b may have a circular, oval or any other section form suitable for the skilled person, including a shape that is complementary to that of straight sections 4a, 4b, 3036466 -20- the thickness of the partitions 34a, 34b, 34, few t be greater or less than the thickness of the side walls 30, - the partitions 34a, 34b, 34, may have a cross section or curve. They may be oblique, and are not necessarily parallel to the longitudinal edges 32a, 32b, nor parallel to each other, the two parts 7a, 7b of the dissipator 7 may be in contact with the inner wall of the bar 3 so that that each side wall 30 is heated identically, the dissipator 7 can of course be used in a bar having the configuration of Figure 9, that is to say with a single partition wall.
    权利要求:
    Claims (13)
    [0001]
    REVENDICATIONS1. Domestic electric heating appliance comprising at least one vertical upright (2) to which at least one hollow, flat bar (3) having two longitudinal edges (32a, 32b) and two transverse edges (33) is attached, an electric heating element ( 4) being housed in said bar, characterized in that: - the electric heating element (4) is a cord having a double electrical insulated sheath, which cord is formed of two straight heating sections (4a, 4b) connected by a curved section (4c), which curved section (4c) has a thickness less than that of the rectilinear sections, - the bar (3) comprises arrangements (31a, 31b) for receiving each one of the rectilinear sections (4a, 4b) cord (4), and an arrangement for receiving the curved section (4c) so that the assembly of said cord is housed in said bar.
    [0002]
    2. Apparatus according to claim 1, wherein: - the bar (3) comprises two inner housings (31a, 31b) parallel to the longitudinal edges (32a, 32b), the rectilinear sections (4a, 4b) of the cord (4) being respectively housed in one of said housings, the curved section (4c) being located at one of the transverse edges (33) of said bar, - the two internal housings (31a, 31b) are separated by at least one partition (34, 34a, 34b) whose summit ridge (340, 340a, 340b) is distant from the inner wall of the bar (3), - the distance (d) between the inner wall of the bar (3) and the summit ridge (340, 340a, 340b) of the partition (34, 34a, 34b) is greater than or equal to the thickness of the curved section (4c) and less than the respective thickness of each rectilinear section (4a, 4b) so that said curved section (4c) is housed in the space separating said apex edge (340, 340a, 340b) from said inner wall, said partition (34, 34a, 34b) preventing the rectilinear sections (4a, 4b) from leaving their respective housing (31a, 31b).
    [0003]
    3. Apparatus according to claim 2, wherein: the two inner housings (31a, 31b) are separated by two partitions (34a, 34b) each having a top edge (340a, 340b) remote from the inner wall of the bar (3), - the partitions (34a, 34b) define a central channel on either side of which are located the two housings (31a, 31b), - the distance (d) between the inner wall of the bar (3) ) of the apex ridge (340a, 340b) of the partitions (34a, 34b) is greater than or equal to the thickness of the curved section (4c) and less than the respective thickness of each rectilinear section (4a, 4b) so that said curved section (4c) is housed in the space separating said inner wall from the top edges (340a, 340b), said partitions (34a, 34b) preventing said rectilinear sections (4a, 4b) from leaving their respective housing (31a , 31b).
    [0004]
    4. Apparatus according to claim 3, wherein a temperature sensor (5) and / or a thermal circuit breaker is housed in the central channel, the thickness of the probe and / or the thermal circuit breaker being greater than the distance between the inner wall of the bar (3) and the top edges (340a, 340b) of the partitions (34a, 34b).
    [0005]
    Apparatus according to claim 2, wherein the two inner housings (31a, 31b) are separated by a single partition (34a).
    [0006]
    6. Apparatus according to one of the preceding claims, wherein the curved section (4c) is located at one of the transverse edges (33) of the bar (3), which transverse edge is closed by a plug (330) which holds said curved section in position in said bar. 3036466 -23-
    [0007]
    7. Apparatus according to one of the preceding claims, wherein the rectilinear sections (4a, 4b) of the cord (4) are each associated with a heat sink (7), which dissipators are installed in the bar (3) so as to be in intimate contact with the inner wall of said bar. 5
    [0008]
    8. Apparatus according to one of the preceding claims, wherein the bar (3) is formed by an extruded profile.
    [0009]
    9. Apparatus according to one of claims 1 to 8, wherein the rectilinear sections (4a, 4b) of the bead (4) are each formed by a flexible heating cord having a double insulated electrical sheath, which cordsets are connected between them by a flexible non-heating electrical cable having a double electrical insulated sheath and forming the curved section (4c). 15
    [0010]
    10. Apparatus according to one of claims 1 to 8, wherein the rectilinear sections (4a, 4b) of the bead (4) are each formed by a flexible heating cord having a double insulated electrical sheath, which cords are connected together. by a flexible heating cord having a double electrical insulated sheath and forming the curved section (4c). 20
    [0011]
    11. Apparatus according to one of the preceding claims, wherein the rectilinear sections (4a, 4b) of the bead (4) have the same thickness or different thicknesses. 25
    [0012]
    12. Apparatus according to one of the preceding claims, wherein: - the curved section (4c) of the bead (4) is located at one of the transverse edges (33) of the bar (3), - orifices ( 610) are formed in the bar (3) at the transverse edge (33) which is located opposite the transverse edge (33) where the curved section (4c) is located, the rectilinear sections (4a, 4b). ending with electrical connection ends (61) exiting said bar through said orifices. 3036466 -24-
    [0013]
    13. Apparatus according to one of the preceding claims, consisting of an electric towel rail, the bars (3) being drying bars.
    类似技术:
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    同族专利:
    公开号 | 公开日
    EP3096094A1|2016-11-23|
    ES2819948T3|2021-04-19|
    FR3036466B1|2019-06-14|
    EP3096094B1|2020-07-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE29802057U1|1998-02-10|1998-06-18|Dusar Kunststoff Metall Gmbh|Shower or tub partition with attached radiator|
    EP1381255A1|2002-07-12|2004-01-14|Muller et Compagnie|Towel drier with self-heating bars|
    EP1797806A1|2005-12-14|2007-06-20|Calthermic, S.L.|Towel warmer and drying rack|
    WO2007120004A1|2006-04-17|2007-10-25|Solco Biomedical Co., Ltd.|Method for bending the self-regulating cable and heating mat for protecting over-heating|
    US3808573A|1973-01-16|1974-04-30|Emerson Electric Co|Electric heater assemblies|
    US4204316A|1978-08-03|1980-05-27|Acra Electric Corporation|Method of manufacture of a heater band|
    CN201759459U|2010-07-20|2011-03-16|陈耿炳|Intelligent electric-heating hanging rack|IT201600129225A1|2016-12-21|2018-06-21|Dl Radiators S R L|DEVICE FOR HEATING AN ENVIRONMENT|
    FR3062895B1|2017-02-16|2019-04-05|Uniglory Industrial Limited|DOMESTIC ELECTRICAL HEATING DEVICE, ESPECIALLY OF THE DRYER TYPE.|
    FR3095261B1|2019-04-17|2021-08-06|Texas De France|Method of inserting a heating cord into a heat sink|
    法律状态:
    2016-05-31| PLFP| Fee payment|Year of fee payment: 2 |
    2016-11-25| PLSC| Search report ready|Effective date: 20161125 |
    2017-05-31| PLFP| Fee payment|Year of fee payment: 3 |
    2018-05-31| PLFP| Fee payment|Year of fee payment: 4 |
    2019-05-29| PLFP| Fee payment|Year of fee payment: 5 |
    2020-05-29| PLFP| Fee payment|Year of fee payment: 6 |
    2021-05-26| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1554549|2015-05-21|
    FR1554549A|FR3036466B1|2015-05-21|2015-05-21|DOMESTIC ELECTRICAL HEATING APPARATUS HAVING AT LEAST ONE FLAT HOLLOW BAR IN WHICH A HEATING ELECTRICAL ELEMENT IS LOADED|FR1554549A| FR3036466B1|2015-05-21|2015-05-21|DOMESTIC ELECTRICAL HEATING APPARATUS HAVING AT LEAST ONE FLAT HOLLOW BAR IN WHICH A HEATING ELECTRICAL ELEMENT IS LOADED|
    ES16170699T| ES2819948T3|2015-05-21|2016-05-20|Domestic electric heating appliance that includes at least one flat hollow bar in which an electric heating element is housed|
    EP16170699.9A| EP3096094B1|2015-05-21|2016-05-20|Household electrical heating appliance comprising at least one flat hollow bar in which an electric heating element is housed|
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