WO2022248600A1 - Control module and corresponding electrical heating device - Google Patents

Abstract

The invention relates to a control module (5) of an electrical device, in particular a thermal conditioning device for a motor vehicle, the control module (5) comprising a metal housing (7) and an electronic control card (9) received in the metal housing (7). According to the invention, the control module (5) comprises at least one assembly element (15) made of an electrically insulating material, the at least one assembly element (15) being attached, on the one hand, to the metal housing (7) and, on the other hand, to the electronic control card (9), which assembly element passing through the card (9), so as to retain the card (9) inside the metal housing (7).

Description

CONTROL MODULE AND RELATED ELECTRIC HEATER

The present invention is in the field of electrical devices for heating a fluid such as an electric heater, in particular in a motor vehicle ventilation, heating and/or air conditioning installation. It relates more particularly to a control module making it possible to control such an electrical device.

[0002] The use of heating devices such as electric radiators in such installations is known in particular for making additional radiators arranged across the air flow at the outlet of a main radiator through which a heat transfer fluid passes, in particular in vehicles with internal combustion engines, to generate a temporary additional supply of heat energy, in particular when the vehicle is started, to carry out rapid punctual heating of the air flow.

[0003] It is also planned to equip motor vehicles with a high-voltage power supply network, in particular electric or hybrid vehicles. And in this context, electric heaters can no longer be used only as a source of auxiliary heating but as a main heating device, the calorific power that can be delivered by these electric heaters powered at high voltage being sufficient to heat the air in ventilation, _heating and/or air conditioning installation

[0004] Such electric heating devices such as electric radiators comprise a heating body provided with heating elements, for example arranged so as to be directly exposed to a flow of air passing through the electric heating device. The heating elements include, for example, stones or ceramics with a PTC effect, that is to say with a positive temperature coefficient. These are elements whose resistive value varies greatly depending on the temperature. More specifically, the ohmic value of PTC resistive elements increases very rapidly beyond a predetermined temperature threshold.

[0005] The current supply to these resistive elements generates heating of the heating element, the heat being able to be diffused by radiant elements which increase the exchange surface with the air passing through these electric heaters. [0006] In addition, the heating devices generally comprise a control module capable of controlling the current flowing in the heating elements via in particular a power supply circuit. The power supply circuit is mounted for example on an electronic control board, such as a printed circuit board known by the acronym PCB for Printed Circuit Board in English.

[0007] In particular in the case of an electrical heating device supplied with high voltage, it may be a main heating device of the vehicle which may be very powerful, which encourages having electrical powers to be delivered very important, in particular of the order of 1kW to 8kW.

[0008] The control module generally comprises a control box receiving the control electronics and closed by a cover. According to a known solution, the control box is metallic, that is to say both the body of the control box defining a housing to receive the control electronics and the cover closing the control box. Such a control box, said to be all-metal, has advantages in particular in terms of resistance or robustness.

The electronic control card is mounted in the control box generally by screwing. To this end, the body of the metal casing generally comprises fixing studs in which the screws, metal, passing through the electronic control board are received. The fixing studs are generally integral with the body of the case, and are therefore metallic. The screws are then grounded through the metal case.

[0010] However, it is necessary to respect a certain distance or zone of electrical insulation around the metal screws on the electronic control board, and this all the more so when the control module is supplied with high voltage. These are therefore dead zones of the electronic control board, without components or traces of copper. These areas of electrical insulation lead to a loss of space which can be quite substantial on the electronic control board, and therefore leaves even less space available for arranging electronic components.

[0011] Reducing the size is a constant problem in the automobile industry. The object of the invention is therefore to increase the space available on the electronic control card while ensuring the electrical insulation of the electronic card with respect to the metal control box. To this end, the invention relates to a control module for an electrical device, in particular thermal conditioning for a motor vehicle, the control module comprising a metal casing and an electronic control card received in the metal casing.

According to the invention, the control module comprises at least one assembly element made of an electrically insulating material, said at least one assembly element being fixed on the one hand to the metal casing and on the other hand to the electronic control card by crossing said card, so as to maintain said card in the metal casing.

[0014] The combination of the all-metal control box with one or more assembly elements made of electrically insulating material for mounting and holding the electronic control card in the metal box makes it possible to reduce or even eliminate the area of electrical insulation necessary around the metal fasteners, for example screws, according to the known solutions of the prior art. This saves space, while continuing to benefit from the advantages of the all-metal casing, particularly from the point of view of electromagnetic interference, and robustness.

[0015] The control module may also comprise one or more of the following characteristics described below, taken separately or in combination.

[0016] The electrically insulating material comprises, for example, plastic. It can be, for example, poly(butylene terephthalate) known by the acronym PBT which can be reinforced with fibers for example by 20% (PBT GF 20) or 30% (PBT GF 30). It can also be polyamide such as polyamide 6-6 (PA66). It can be a self-expanding plastic.

According to another aspect, the metal casing may comprise at least one base cooperating by form complementarity with said at least one assembly element.

Said at least one base defines for example at least one housing in which one end of said at least one assembly element is fitted. Conversely, the housing may be defined by the assembly element and the base of the housing may have an end piece fitted into this housing.

[0019] Said at least one assembly element can be fixed to the metal casing, according to a process chosen from among a bonding process, an ultrasonic fixing process, a press fit. [0020] Said at least one assembly element can be fixed directly to said card, that is to say without an intermediate fixing member.

[0021] Said at least one assembly element is advantageously fixed to said card by a deformation of a free end passing through said card according to a method chosen from a method of riveting, riveting, thermoforming.

This solution with the assembly element ensuring the fixing of the electronic control card, for example by deformation of one of its ends, without requiring a metal fixing member, is preferred. The insulation zone can be completely eliminated, which allows the tracks and/or electronic components to be placed as close as possible to the assembly element.

[0023] The assembly element has for example a general shape of revolution, a general cylindrical shape. It may have a cylindrical main body from which extend two cylindrical end portions of smaller diameter for fixing on the one hand to the metal casing and on the other hand to the electronic control card.

Alternatively, said at least one assembly element can be fixed to said card by means of at least one fixing member, such as a screw.

[0025] The control module may further comprise at least one positioning element made of the electrically insulating material, and arranged by being fixed to the metal casing and passing through said card. Said at least one positioning element can be configured to define the location and/or the orientation of the electronic control card.

[0026] The metal casing may comprise at least one base cooperating by shape complementarity with said at least one positioning element.

According to an exemplary embodiment, a common base can cooperate with an assembly element and a positioning element.

[0028] Furthermore, the control module can be configured to be electrically connected to a high voltage electrical power source, greater than 60V.

The invention also relates to an electric thermal conditioning device, in particular for a motor vehicle comprising a control module as defined previously. It is in particular an electric heating device of a fluid comprising at least one heating element and such a control module. The control module is electrically connected to said at least one heating element.

Other advantages and characteristics of the invention will appear more clearly on reading the following description given by way of illustrative and non-limiting example, and the appended drawings, among which:

[0031] [Fig. 1] is a perspective view of an example of an electrical device for heating an air flow provided with a control module comprising a housing closed by a cover.

[0032] [Fig. 2] is a top and perspective view of the electric air heating device of Figure 1 in which the cover closing the control module housing is removed.

[0033] [Fig. 3] shows an embodiment of an assembly element for mounting and fixing an electronic control card in the control module housing.

[0034] [Fig. 4] is a sectional view of the housing body in which the electronic control card is mounted.

[0035] [Fig. 5] shows an embodiment of a positioning element for mounting the electronic control card in the control module housing.

[0036] [Fig. 6] is a perspective view of the body of the box before assembly of the electronic control card.

[0037] [Fig. 7] is an enlarged view of a portion of the case body in section, showing the assembly of the assembly and positioning elements on the one hand with the body of the case and on the other hand with the electronic control board of the control module.

In these figures, identical elements bear the same reference numbers.

The following embodiments are examples. Although the description refers to one or more embodiments, this does not necessarily mean that each reference is to the same embodiment, or that the features apply only to a single embodiment. Simple features of different embodiments can also be combined or interchanged to provide other embodiments. [0040] Electric heating device

[0041] Figure 1 shows an electrical device for the thermal conditioning of a fluid, such as an electrical device 1 for heating a fluid, in particular for a heating and/or ventilation and/or air conditioning installation of a motor vehicle .

[0042] It may in particular be a so-called high-voltage electrical heating device 1. A high-voltage device is defined here as a device intended to be powered by a direct or alternating current having an electrical voltage greater than 60V, in particular between 60V and 1000V, for example of the order of 400V or 800V.

[0043] This is in particular an electrical device 1 for heating an air flow, as shown in Figure 1. The installation generally comprises at least one air flow circulation duct at inside which the electric heating device 1 can be arranged so as to be traversed by the flow of air to be heated.

The invention can be applied to another fluid. As a variant, it could be an electrical device 1 for heating a heat transfer liquid, such as water circulating in a heating circuit for heating a motor vehicle passenger compartment.

The electrical device 1, for example for heating an air flow, is capable of transforming electrical energy taken for example from the vehicle into thermal energy returned to the air flow passing through the heating device 1.

For this purpose, the electric heating device 1 comprises a heating body 3 comprising one or more heating elements 31.

[0047] The heating body 3 is intended to be supplied with electric current to heat the fluid, for example the flow of air, passing through the heating body 3. The heating body 3 can have, without limitation, a configuration general parallelepipedal. It is intended in particular to be positioned transversely to the flow of air to be heated.

The heating elements 31 of the heating body 3 can be made in the form of heating rods receiving, for example, resistive elements, such as thermistors, for example of the PTC effect type (for positive temperature coefficient). Other alternatives can be considered. The heating bars 31 are supplied with current, for example at a voltage of the order of 400V in the case of a high voltage electric heating device 1. The electric heating device 1 further comprises a control module 5 of the heating body 3. This control module 5 is intended to be electrically connected to a power source (not shown). The electrical power source is for example a 400V or 800V power battery.

[0050] In general, the control module 5 is intended to be connected electrically, and generally also mechanically, to the heating body 3 or box containing the heating elements 31. The control module 5 can be fixed on the heating body 3. This control module 5 makes it possible, after electrical connection to the electrical power source and to the heating elements 31, to control the power supply to the heating elements 31, using at least one control signal.

The control module 5 is described in more detail below.

[0051] Control module

The control module 5 comprises a box 7, also called control box 7. It is for example of generally parallelepiped shape.

The control box 7 comprises a control box body 71 and a cover 73 fixed to said body 71 so as to close the control box 7. The cover 73 is for example glued to the control box body 71. The cover 73 can additionally be screwed to the control box body 71.

The control box body 71 can be metallic, for example aluminum or aluminum alloy. Advantageously, the entire control box 7, therefore also the cover 73, is metallic, for example aluminum or an aluminum alloy.

The control module 5 includes an electronic control card 9, visible in Figure 2. It can be arranged inside the control box 7 control. Such a card is intended to be electrically connected to the power supply source.

[0056] The electronic control card 9 is in particular configured to control the power supply of the heating body 3, and more precisely to control the heating elements 31. To this end, the electronic control card 9 is able to carry a plurality electronic components or modules configured to receive information, process it and generate a control signal for controlling the heating elements 31. The control signal can be periodic, for example with modulation of pulse width, known by the acronym MLI or PWM for English “Pulse Width Modulation”.

The control module 5 may further comprise one or more electrical connectors 11, 13 (also referring to Figure 1).

In particular, the control module 5 includes an electrical connector 11 allowing the electrical connection of the electronic control card 9 to the electrical power source. In the case of a high voltage electrical device, it is in particular an electrical connector 11 called a high voltage connector, that is to say that it is configured to be used for a supply voltage greater than 60V.

The control module 5 may include another electrical connector 13, in particular a low voltage connector 13, i.e. it is configured to be used for a supply voltage below 60V, generally 12V . This is for example a signal connector.

[0060] The control module 5 further comprises one or more elements 15, 17 allowing the mounting and maintenance of the electronic control card 9 in the control box 7.

[0061] In particular, the control module 5 comprises at least one assembly element 15 configured to hold the electronic control card 9 in the metal box 7. The fixing of the electronic control card 9 in the control box 7 is carried out at least in part by such an assembly element 15, as detailed below.

The assembly element 15 is intended to be fixed on the one hand to the metal control box 7 and on the other hand to the electronic control card 9, as developed later. Preferably, several assembly elements 15 are provided, for example, without limitation, six assembly elements 15.

[0063] In addition, the control module 5 may include at least one positioning element 17.

Its function may be different from the function of fixing the assembly elements 15. It can make it possible to position the electronic control card 9, in particular the location and/or the orientation of the electronic control card 9, in the control box 7 before fixing. Preferably, at least two positioning elements 17 are provided. A positioning element 17 can be used to define the location of the electronic control card 9. Another positioning element 17 can be used to define the orientation of the electronic control card 9. For example, this other positioning element 17 may be intended to be received in an orifice 19 which may be oblong, formed on the electronic control board 9, so as to avoid hyperstatic assembly.

The or each positioning element 17 is intended to be fixed to the metal control box 7 passing through the electronic control card 9. Advantageously, it can be arranged quite close or even be juxtaposed with an assembly element 15 , to save space.

In order to electrically insulate the electronic control board 9 from the control box 7 in the assembled state, the assembly elements 15 are made of an electrically insulating material.

[0068] Such an electrically insulating material comprises, for example, plastic. The plastic is advantageously chosen so as to withstand the operating temperature, for example around 120° C. The plastic can be chosen so as to maintain a temperature above this operating temperature, for example up to 150°C or even 200°C. It can be, for example, poly(butylene terephthalate) known by the acronym PBT which can be reinforced with fibers for example by 20% (PBT GF 20) or 30% (PBT GF 30). It can also be polyamide such as polyamide 6-6 (PA66). It can be a self-expanding plastic.

Similarly, the positioning element(s) 17 can be made of an electrically insulating material, such as plastic. More precisely, the positioning elements 17 are made of the same electrical insulating material as the assembly elements 15.

An exemplary embodiment of an assembly element 15 is described below, with reference to Figures 3 and 4. Preferably, all the assembly elements 15 are identical.

The assembly element 15 may have a general shape of revolution, a general cylindrical shape, with an axis of revolution A. It can be made in the form of a stud. According to the example illustrated, the assembly element 15 has a main body 150 from which extend two opposite ends or end portions 151, 153. The first end 151 may be intended to be fixed to the control box 7, in particular to the box body 71, while the second end 153 is configured to allow the fixing of the electronic control card 9.

According to this example, the main body 150 is central between the two ends or end portions 151, 153.

The main body 150 is for example generally cylindrical in shape with a diameter D. The end portions 151, 153 can also be generally cylindrical or conical in shape, with a diameter D′, less than the diameter D of the main body 150.

The fixing of the assembly elements 15 to the electronic control card 9 can be done directly, that is to say without an intermediate fixing member.

For this, the assembly elements 15 can be fixed to the electronic control card 9 by deformation, for example according to a riveting, riveting or thermoforming process.

In this case, one of the ends of the assembly elements 15, the second end 153 according to the embodiment described, is intended to pass through the electronic control card 9 on either side and to be deformed to perform the fixing function. The second end 153 is therefore received in an orifice 21 of the electronic control card 9 so as to protrude from the other side of the electronic control card 9 before deformation.

More specifically, the electronic control card 9 has a first face 91 and a second face 93 opposite. The first face 91 is arranged opposite the bottom 711 of the housing body 71. The assembly element 15 crosses the first face 91 and the second face 93 of the electronic control card 9, so that the second end 153 forms projecting from the second face 93.

Before deformation, the second end 153 may be similar in shape to the first end 151. After deformation, for example by riveting or riveting as in the example shown, the second end 153 is for example crushed. The deformed second end 153 has a head 155 for example of spherical or semi-spherical shape, or rivet head. This head 155 has a section increased by relative to the rest of the second end portion 153. The section of the head 155 is greater than that of the orifice 21 of the electronic control card 9.

The positioning element 17 may have a shape similar to that of the assembly element 15 before deformation. It can have a general shape of revolution, a general cylindrical shape, with axis of revolution B. When several positioning elements 17 are provided, they can be identical.

According to the example illustrated in Figures 4 and 5, the positioning element 17 has a main body 170, for example of generally cylindrical shape with a diameter Da, from which extend two ends or end portions 171, 173 opposed, for example of generally cylindrical or conical shape of smaller diameter Db than the main body 170. The first end 171 may be intended to be fixed to the control box 7, in particular to the box body 71, while the second end 173 is configured to pass through the electronic control card 9. According to this example, the main body 170 is central between the two ends or end portions 171, 173. Furthermore, the main body 170 can be of smaller section than the main body 150 of an assembly element 15.

[0082] Alternatively, the assembly elements 15 can be fixed to the electronic control card 9 indirectly, that is to say via at least one additional fixing member. The fixing member may or may not be metallic. For example, it may be a screw.

[0083] According to this alternative, not shown, the assembly element 15 does not necessarily pass through the electronic control card 9. The fixing member such as a screw may be intended to pass through the electronic control card 9 to come attach to assembly element 15.

In this case, the assembly element 15 may have a main body, for example of generally cylindrical shape, from which extends an end portion, for example of cylindrical or conical shape, of smaller diameter, for attachment to the control box 7. On the side opposite this end portion, the main body may include a housing for receiving the attachment member, such as a screw, for attachment to the electronic card control 9. A column is thus formed to receive the fixing member such as a screw, forming an isolation interface between such a screw and the metal control box 7 . The assembly elements 15, or positioning 17, are described above with a general shape of revolution. Other shapes can be envisaged, for example with a square, ovoid section, or any other shape.

[0086] Regarding the fixing of the assembly elements 15 to the metal casing 7, it may be, in a non-exhaustive manner, cooperation by complementarity of form, assembly in force, gluing, ultrasonic fixation or any other suitable technique. The same is true for the additional positioning element(s) 17 when provided.

[0087] To this end, the control box 7 and in particular the box body 71 comprises a predefined number of bases 75, better visible in Figures 6 and 7.

The bases 75 extend from the bottom 711 of the casing body 71 in the direction of the electronic control card 9, when the latter is mounted in the casing 7. The bases 75 extend for example along an axis C transverse to the general plane defined by the bottom 711 of the case body 71.

These bases 75 are shaped to cooperate respectively with at least one associated assembly element 15, during assembly and fixing of the electronic control card 9 in the control box 7. When an assembly element 15 , respectively of positioning 17, is mounted in a base 75, the axis of revolution A, respectively B, can be confused with the axis C of extension of the base 75.

According to the illustrated embodiment, the case body 71 comprises as many bases 75 as there are assembly elements 15. The control box 7 may also comprise at least one base 75 intended to cooperate with a positioning 17 associated. These may be additional 75 bases. Alternatively, as shown, at least some bases 75 can be shaped to cooperate with an assembly element 15 and a positioning element 17 when the latter is arranged close to, juxtaposed with, the assembly element 15.

[0091] Advantageously, the bases 75 cooperate by form complementarity with the assembly elements 15, and any positioning elements 17.

The or each base 75 may have a circular section shape, for example chosen from a column shape, a barrel shape, a tubular shape. Any other shape can be envisaged, for example a shape with a square section. The bases 75 respectively define at least one housing 77 in which one end of an associated assembly element 15, or possibly of an associated positioning element 17, is fitted. In particular, a common base 75 can define two housings 77, respectively for fitting the end of an assembly element 15 and the end of a positioning element 17.

The end of the assembly element 15 or positioning element 17 can be forcibly fitted into the housing 77 of the corresponding base 75. This is according to the embodiment described above of the first end portion 151, respectively 171, for example cylindrical, of the assembly element 15, respectively positioning 17.

The housing 77 is of complementary shape to the shape of the assembly element 15 or positioning element 17, more precisely of the end 151 or 171 which is fitted. According to the embodiment described, the housings 77 are of circular section.

[0096] Conversely, according to an alternative not shown, the housing can be defined by the assembly element 15 or positioning element 17 and the base 75 of the control box 7 can have a fitting fitted into this housing.

[0097] Once the electronic control card 9 has been fixed in the box body 71, the cover 73 can in turn be fixed to the box body 71, for example by gluing and screwing, in order to close the control box 7, as shown in figure 1.

[0098] Thus, the electronic control card 9 can be mounted and advantageously fixed in the control box 7 which is entirely metallic, using attached parts, namely the assembly elements 15, and possibly positioning 17 , plastic or other electrically insulating materials. It is therefore no longer necessary to leave a distance or isolation zone around the assembly elements 15 or positioning elements 17, on the electronic control card 9. The gain can be of the order of 5% to 10% additional useful area compared to the solutions of the prior art with screws, on which electronic components or copper tracks can be provided.

Fasteners such as screws can cooperate with the assembly elements 15 to ensure the fixing of the electronic control card 9. Preferably, the assembly elements 15 perform this fixing function, for example by deformation, such as riveting, or riveting, without requiring metal fasteners. This last solution generates less stress on the electronic control card 9 than the fixing of a screw, which allows all the more space saving, the electronic components being able to be arranged as close as possible to the assembly elements 15.

[0100] The control module 5 obtained therefore comprises a mixture of materials, with the metallic material or materials, for example aluminum, of the control box 7 making it possible to retain the advantages of resistance, robustness, and the electrical insulating material such than plastic, assembly elements 15, and possibly positioning 17, allowing the mounting of the electronic control card 9 and providing the insulation function.

Claims

Claims

[Claim 1] Control module (5) of an electrical device (1) in particular for thermal conditioning for a motor vehicle, the control module (5) comprising a metal casing (7) and an electronic control card (9) received in the metal casing (7), characterized in that the control module (5) comprises at least one assembly element (15) made of an electrically insulating material, the said at least one assembly element (15) being fixed on the one hand to the metal casing (7) and on the other hand to the electronic control card (9) passing through said card (9), so as to maintain said card (9) in the metal casing (7).

[Claim 2] Control module (5) according to the preceding claim, in which the electrically insulating material comprises plastic.

[Claim 3] Control module (5) according to one of the preceding claims, in which the metal casing (7) comprises at least one base (75) cooperating by form complementarity with the said at least one assembly element (15 ).

[Claim 4] Control module (5) according to the preceding claim, in which the said at least one base (75) defines at least one housing (77) in which one end (151) of the said at least one assembly element (15 ) is fitted.

[Claim 5] Control module (5) according to one of the preceding claims, in which the said at least one assembly element (15) is fixed to the metal casing (7), according to a process chosen from among a bonding process, an ultrasonic fixing process, a force fitting.

[Claim 6] Control module (5) according to one of the preceding claims, in which the said at least one assembly element (15) is fixed to the said card (9) by a deformation of a free end (153) crossing said card (9), according to a method chosen from a method of riveting, riveting, thermoforming.

[Claim 7] Control module (5) according to one of the preceding claims, comprising at least one positioning element (17) made of electrically insulating material, and arranged by being fixed to the metal casing (7) and passing through said card (9).

[Claim 8] Control module (5) according to the preceding claim, in which the metal casing (7) comprises at least one base (75) cooperating by form complementarity with the said at least one positioning element (15).

[Claim 9] Control module (5) according to one of the preceding claims, configured to be electrically connected to a high voltage electrical power source, greater than 60V.

[Claim 10] Electric device (1) for heating a fluid, in particular for a motor vehicle, said device (1) comprising at least one heating element (31) and a control module (5) according to one of the preceding claims, the control module (5) being electrically connected to said at least one heating element (31).