DE102020202209A1 - Arrangement of electronic modules - Google Patents

Abstract

The invention relates to an arrangement (1) of electronic modules (2_1-2_6) with a multiplicity of electronic modules (2_1-2_6), each electronic module (2_1-2_6) having a housing (3) comprising the respective electronic module (2_1-2_6) with a Has predetermined size. It is provided that the electronic modules (2_1-2_6) are arranged one behind the other in a spiral row, starting from a first electronic module (2_1).

Description

The invention relates to an arrangement of electronic modules with a multiplicity of electronic modules, each electronic module having a housing comprising the respective electronic module and having a predetermined size.

State of the art

Arrangements of electronic modules are known in principle from the prior art. For example, U.S. Patent shows US 9,415,687 B2 a dashboard for a military vehicle with a modular, reconfigurable arrangement of electronic modules. The arrangement has a multiplicity of electronic modules, each with a housing comprising the respective electronic module. The arrangement of the electronic modules is designed in such a way that the electronic modules are divided into three exchangeable segments that can be plugged onto the dashboard. The segments or the electronic modules are electrically and communicatively connected to one another by means of the dashboard. Each of these segments is designed in such a way that one or more electronic modules can be arranged within this segment, the electronic modules or the arrangement of these electronic modules being reconfigurable so that the arrangement as a whole can be adapted to the respective requirements of the vehicle.

Disclosure of the invention

The present invention with the features of claim 1 has, inter alia, the advantage that the electronic modules are arranged next to one another in a particularly compact manner, so that the arrangement is designed to be space-saving and inexpensive. In particular, this results in the advantage that the electronic modules can be networked with one another to a high degree within the arrangement. In particular, this increases the scope of functions and the possible uses of the arrangement. According to the invention, it is provided for this purpose that the electronic modules are arranged one behind the other in a spiral row, starting from a first electronic module. This results in the advantage that, due to the spiral course of the row, the electronic modules are arranged next to one another in a particularly compact manner and can advantageously be connected to one another, both mechanically and functionally. The arrangement is preferably designed to be modular, so that the electronic modules can be exchanged individually and independently of one another at any time. This has the advantage that the arrangement can be individually adapted to the corresponding requirements. The arrangement itself is preferably designed without a carrier element, for example a dashboard or a printed circuit board, on which the arrangement is arranged. Optionally, however, the arrangement can also be implemented in connection with such a carrier element, with the electronic modules within the arrangement advantageously being able to be connected to one another electrically and / or in terms of communication technology in particular by means of this element.

According to a preferred development of the invention it is provided that in the course of the spiral row at least two of the housings of the electronic modules have different sizes from one another. Accordingly, the arrangement can be implemented in such a way that the size of at least two of the housings of at least two of the electronic modules is gradually reduced or increased in the course of the spiral row. This results in the advantage that electronic modules with different housing sizes can advantageously be arranged in the arrangement and an existing installation space can be optimally used.

According to a preferred development of the invention, it is provided that starting from one of the electronic modules, in particular starting from the first or second of the electronic modules, the size of the housing of the electronic modules following in the series increases gradually. Accordingly, in the course of the spiral row, the size of the housing increases from electronic module to electronic module. As a result, the electronic modules can advantageously be arranged in the spiral shape. Optionally, at least two of the electronic modules adjacent in the row have the same housing size.

According to a preferred development of the invention it is provided that the housings each have a rectangular base area with at least one predetermined edge length and a predetermined height. This has the advantage that the arrangement, in particular the spiral row, can be designed to be particularly space-saving and compact. Preferably, the height of the housings of the electronic modules remains constant throughout the row, so that in particular the increase in size of the electronic modules is limited to the plane in which the base areas of their housings are arranged.

According to a preferred development of the invention, it is provided that the housings each have a square base area, so that side walls of the respective housing each have the same edge length, with each further electronics module with at least one of its side walls, in particular apart from the first and second electronics module two in one level lying side walls of at least two in the row in front of the electronic modules is opposite in parallel or rests against it. In particular, this results in the inventive spiral shape of the arrangement. The advantage here is that the electronic modules within the row can be arranged in a particularly compact manner with respect to one another and, in particular, can be networked with one another. It is preferably provided that the housings in the row are arranged in contact with one another at least in some areas. This has the advantage that the arrangement is designed to be particularly efficient in terms of space and cost savings. Alternatively, it is provided that the housings are arranged in the row at a distance from one another, so that in particular small spaces remain between the electronic modules. This has the advantage that additional elements, for example cables, can be passed through in these intermediate spaces in order, for example, to network the electronic modules within the arrangement and / or to supply them with electrical energy. In particular, the spaces can be used as ventilation paths, so that the arrangement of electronic modules can advantageously be ventilated, for example for cooling.

According to a preferred development of the invention, it is provided that the edge length of the side wall of each further electronic module corresponds to the sum of the edge lengths of the side walls lying parallel to it or lying against it and lying in one plane of the electronic modules in the row in front of it. In particular, the edge length of each additional electronic module is defined here by the sum of the edge lengths of the two electronic modules preceding in the series. In particular, the increase in size of the electronic modules takes place in accordance with a Fibonacci sequence, the base area of the housing of each further electronic module preferably corresponding to at least almost 1.61 times the base area of the housing of the preceding electronic modules. This results in an optimal use of space.

According to a preferred development of the invention, it is provided that, in particular with the exception of the first electronic module, each further electronic module has at least two connecting devices for mechanical connection with one further electronic module in each case. The first electronic module preferably has at least one of these connecting devices. As a result, the electronic modules can preferably be connected to one another directly or alternatively indirectly, for example by means of an adapter, so that a continuous mechanical connection of the electronic modules to one another is made possible. Each of the electronic modules is preferably mechanically connected to at least one, preferably to several electronic modules. This results in the advantage that the arrangement has a high mechanical stability, in particular additional connection means for mechanical connection, for example a dashboard, onto which the electronic modules can be plugged, not being necessary. Optionally, however, such connecting means are provided in order to additionally increase the mechanical stability of the arrangement, with these in particular additionally connecting the electronic modules electrically and / or in terms of communication technology.

According to a preferred development of the invention it is provided that the respective connecting device is designed as a plug or as a plug receptacle. As a result, the electronic modules can preferably be plugged directly into one another, so that a simple and mechanically stable mechanical connection is implemented. Optionally, the electronic modules are not connected directly, but indirectly, for example by means of an adapter that matches the plug and the plug receptacle. In particular, the plug and plug receptacle are at least partially formed integrally with the housing as an extension protruding from the housing and a recess lying in the housing.

According to a preferred development of the invention, it is provided that the connection devices are designed for the electrical connection of the electronic modules and / or for data transmission between the electronic modules. The connection devices are not only used for the pure mechanical connection of the electronic modules, but are also designed to supply the electronic modules with electrical energy and / or for data transmission between the electronic modules, for example by designing the connection devices as components of a USB interface. This results in the advantage that additional connection devices and / or connections for supplying the electronic modules with electrical energy and / or for data transmission are not necessary, which saves costs. Optionally, however, it is provided that the electronic modules, in addition or as an alternative to being integrated into the connection device, each have at least one additional connection for supplying electrical energy and / or an additional connection device for data transmission, for example a Bluetooth interface. The additional connection serves in particular as a fail-safe in the event that the supply of the respective electronic module with electrical energy is impaired by means of the connection device, so that the electronic module continues to function. With additional connection devices for data transmission, the Networking degree of the electronic modules further increased.

According to a preferred development of the invention, it is provided that the arrangement has a functional channel running along the spiral row, which is either connected to, connectable to or separated from the electronic modules. Correspondingly, the functional channel also has a spiral course, as a result of which the functional channel can advantageously be guided continuously along or through the arrangement. A large number of advantageous functions, which are explained in more detail below, can be implemented by means of the function channel, with at least two of these functions preferably being implemented at the same time. For this purpose, it is provided in particular that the functional channel is formed by a superordinate hose, through the interior of which further hoses and / or cables run, by means of which a function of the functional channel is ensured in each case. In particular, the functional channel is additionally or alternatively filled with a hardened material in order to increase its mechanical stability and / or the stability of the arrangement. In particular, the functional channel has at least one branch which can be connected, preferably is connected, to the electronic modules. This further increases the functionality of the function channel.

According to a preferred development of the invention, it is provided that the functional channel is guided either through the housing, between the housings, or on the housings of the electronic modules along the spiral row. This results in individual advantages with regard to the corresponding function of the functional channel and / or its integration into the arrangement of the electronic modules. The type of guidance takes place in particular as a function of the respective function of the functional channel, so that this is advantageously ensured by the functional channel. For example, if the arrangement has gaps as mentioned at the beginning, the functional channel is guided through these gaps and thus between the housings along the spiral row, so that the gaps are optimally used for integrating the functional channel into the arrangement.

According to a preferred development of the invention, it is provided that the functional channel is designed to conduct liquid and / or gaseous flows, so that the functional channel can be used as part of a heat exchange system. Accordingly, the functional channel has, for example, a cooling hose or is itself designed as such, with an in particular liquid coolant circulating through the cooling hose. In particular, it is provided that the functional channel or cooling hose is connected to a separate heat exchange system, in particular a cooling system. The functional channel integrated in the arrangement thus enables, in particular, a removal of the heat generated by the operation of the electronic modules. This has the advantage that the arrangement can be removed and / or heated in a simple manner.

According to a preferred development of the invention, it is provided that the functional channel is designed to transmit electrical and / or optical signals between at least two electronic modules. For example, the functional channel has an electrical cable for this purpose or is designed as such, with an electrical conductor guided or formed through the functional channel being contactable, for example, by means of an insulation displacement connector. Additionally or alternatively, the functional channel has a light-optical cable or is designed as such. This has the advantage that the degree of networking of the electronic modules is further increased.

According to a preferred development of the invention it is provided that the housing and / or the functional channel have an electromagnetic protective layer. For this purpose, the housings preferably have an in particular galvanically applied copper coating on their inside and / or outside in order to shield the respective electronic module electromagnetically. This has the advantage that the influence of electromagnetic interference signals, which are generated in particular by the electromagnetic radiation of other electronic modules within the arrangement, on the electronic modules is at least reduced or avoided. Preferably, at least or alternatively, the functional channel has an electromagnetic protective layer, in particular embodied as a copper coating. For example, as mentioned above, the functional channel is designed as a hose, the casing of which has said coating on its inside and / or outside. In particular, the protective layer or the copper coating is designed to be electrically contactable, so that it can be used in particular for conducting electrical currents, preferably data transmission. The electromagnetic protective layer of the functional channel has the advantage that electromagnetic interference signals are at least attenuated or shielded. In particular, the electronic modules are thereby protected from interference signals emerging from the functional channel, which are generated, for example, by a cable running through the functional channel. The functional scope of the functional channel is advantageously expanded through the optional electrical contactability of the protective layer.

Optionally, at least one of the housings has a height that is greater than the height of the housing in front of it, in particular so that the spiral shape of the row rises out of a plane in which at least two of the housings in front of it are located . Thus the spiral row extends through several levels. This results in the advantage that electronic modules whose housing has different heights can also be integrated into the arrangement in a space-saving manner. This embodiment of the arrangement also has the advantage that the degree of networking of the electronic modules is further increased by the particularly compact arrangement.

• 1 eine schematische Draufsicht auf eine vorteilhafte Anordnung von Elektronikmodulen und
• 2 eine Seitenansicht eines schematisch dargestellten Gehäuses eines der Elektronikmodule aus 1.

The invention will be explained in more detail below with reference to the drawings. To show

• 1 a schematic plan view of an advantageous arrangement of electronic modules and
• 2 a side view of a schematically illustrated housing of one of the electronic modules from 1 .

1 shows a schematic representation of an arrangement 1 of several electronic modules 2_1-2_6 in a top view. Every electronics module 2_1-2_6 shows the respective electronics module 2_1 - 2_6 comprehensive housing 3 on. The order 1 is designed in a modular way so that each electronic module 2_1 - 2_6 independent of the other electronic modules 2_1 - 2_6 is interchangeable. The electronic modules 2_1 - 2_6 are based on a first electronics module 2_1 arranged one behind the other in a spiral row, so that the arrangement 1 has a spiral shape. In the present embodiment, the housing 3 of the electronic modules 2_1 - 2_6 arranged directly one behind the other or lying next to one another in one plane, so that the housing 3 directly adjoin each other without being within the arrangement 1 Gaps between the housings 3 of the electronic modules 2_1 - 2_6 remain. Alternatively, it is provided that the housing 3 in the arrangement 1 do not directly adjoin one another, so that at least in some areas there are spaces between the housings 3 remain. The housing 3 point in the course of the spiral row starting from the second electronic module in the row 2_2 a gradually increasing size, the first electronic module 2_1 and the second electronics module 2_2 a housing 3 have the same size. Accordingly, it is based on the second electronics module 2_2 the size of the case 3 of the electronics module following in the row 2_3- 2_6 bigger than the case 3 of the electronics module in front of it 2_2 - 2_5 . Due to the inventive design of the arrangement 1 is an efficient and space-saving arrangement of the electronic modules due to the spiral shape 2_1 - 2_6 guaranteed. In the present exemplary embodiment, the arrangement is 1 without a carrier element on which the electronic modules 2_1 - 2_6 are arranged, executed. Optionally, however, such an element, for example a dashboard or a printed circuit board, is provided and in particular both for the mechanical stabilization of the arrangement 1 formed, the electronic modules 2_1 - 2_6 are preferably electrically and communicatively connectable by means of the central element.

2 shows an example of the housing in a side view 3 of the electronics module 2_2 . The case 3 has a square base with a predetermined edge length L and a predetermined height H extending from this base. The housing preferably has 3 on the inside and / or outside a copper coating, in particular galvanically applied, which is designed as an electromagnetically shielding protective layer and in particular can be electrically contacted. The case 3 points on at least two of its adjoining side walls 4th , 5 , which are arranged in particular perpendicular to one another, each have a connecting device 6th for the mechanical connection of the electronic modules 2_1 - 2_6 on, which preferably also for the electrical connection of the electronic modules 2_1 - 2_6 and are designed for data transmission. In the present embodiment, one of these connecting devices is 6th than from the corresponding side wall 4th protruding plug 7th and the other connecting device 6th as a recess in the corresponding side wall 5 who have favourited a plug receptacle 8th forms, trained. The connecting devices are preferred 6th integral with the housing 3 educated. Here are the connector 7th and the connector receptacle 8th on adjacent side walls 4th , 5 of the housing 3 arranged. This ensures that the arrangement is within the spiral row 1 the electronic modules 2_1 - 2_6 can be optimally connected to one another by means of these connecting devices. Here are the housings 3 the one in the arrangement 1 arranged electronic modules 2_1 - 2_6 essentially identical in construction, with the housing 3 of the electronic modules 2_3 - 2 6 at least in their size from the electronic modules 2_1 and 2 _2 differentiate. The case is also different 3 of the first electronics module 2_1 from the housings 3 the remaining electronic modules 2_2 - 2_6 In the present case, furthermore, in that there is only one connecting device 6th on one of its side walls 4th , 5 has, which either as a plug 7th or as a plug socket 8th is trained.

The in 1 The embodiment shown have the housing 3 of all electronic modules 2_1 - 2_6 the arrangement 1 each have a square base. The side walls point accordingly 4th , 5 of the respective housing 3 the same edge length L. Inside the arrangement 1 are the electronic modules 2_1 - 2_6 arranged in such a way that except for the first electronic module 2_1 and the second electronics module 2_2 every additional electronic module 2_3 - 2_6 with one of its side walls 4th , 5 at least on two side walls 4th , 5 of at least two electronic modules located in front of it 2_1 - 2_6 is present. The adjacent side walls 4th , 5 the electronics modules in front of it 2_1- 2_6 are on one level. Here, the edge length L corresponds to the side wall 4th , 5 every further electronic module 2_3 - 2_6 the sum of the edge lengths L of the side walls lying on it and located in one plane 4th , 5 of the electronic modules in the row in front of it 2_1 - 2_6 . Thus, with the in 1 embodiment shown the increase in size of the electronic modules 2_1 - 2_6 corresponding to a Fibonacci sequence.

Inside the arrangement 1 is every electronic module 2_1 - 2_6 starting from the first electronics module 2_1 with the electronic module following in the spiral row 2_2 - 2_6 by means of a connection 9 connected as in 1 is shown by way of example. The connection 9 is done by the connector 7th of the housing 3 of the respective electronics module 2_1 - 2_6 and the connector receptacle 8th of the housing 3 of the subsequent electronics module 2_2 - 2_6 , or the other way around, through the plug receptacle 8th of the housing 3 of the respective electronics module 2_1 - 2_6 and the plug 7th of the housing 3 of the subsequent electronics module 2_2 - 2_6 , educated. This is the plug 7th into the plug receptacle 8th plugged in, making the connection 9 is designed as a plug connection. It is optionally provided that each electronic module 2_1 - 2_6 not only with the subsequent electronics module 2_2 - 2_6 , but also with at least one other, within the arrangement 1 on this adjoining electronics module 2_2 - 2_6 connectable or connected. This is in 1 by the connections shown in dashed lines 9 ' indicated which are identical to the connections 9 are trained. In the present exemplary embodiment, it is therefore provided in particular that each electronic module 2_1 - 2_6 with all within the arrangement 1 on this adjoining electronic modules 2_1- 2_6 connectable or connected. According to the present exemplary embodiment, each electronic module accordingly has 2_1 - 2_6 preferably on each of the side walls 4th , 5 of its housing 3 one connecting device each 6th on. In particular, each housing has for this purpose 3 two plugs each 7th and two plug receptacles 8th on. This shows the arrangement 1 a particularly high degree of networking of electronic modules 2_1- 2_6 as well as high mechanical stability. As continued in the 1 and 2 shown, has at least one electronics module 2_1 - 2_6 at a top 10 of its housing 3 at least one interface, shown here only schematically 11 on, which is designed, for example, as a Bluetooth interface for data transmission. Additionally or alternatively is on the top 10 in addition, another connecting device, shown here only schematically 12th arranged, for example, as a connection for a power cable to supply the electronics module 2_1 - 2_6 is designed with electrical energy.

As in 1 shown shows the arrangement 1 according to the present embodiment furthermore a function channel 13th on, which also spirals along the spiral row of electronic modules 2_1 - 2_6 runs. The functional channel 13th can be trained for a variety of functions. According to the present embodiment, the function channel is 13th through a hose 14th formed, which has further hoses and / or cables in its interior, by means of which various functions of the functional channel, as described above 13th are achievable. According to the present exemplary embodiment, one of these inner tubes is designed to conduct liquid and / or gaseous flows and is connected to an external heat exchange system, not shown here, so that in particular cooling of the electronic modules is thereby achieved 2_1 - 2_6 within the arrangement 1 he follows. An inner cable of the functional channel 13th is also designed as a light-optical fiber, which is used for the optical transmission of signals, in particular data, between at least two electronic modules 2_1 - 2_6 within the arrangement 1 serves. In the present exemplary embodiment, the function channel 13th or hose 14th a case 15th on, which is coated on its inside with a copper coating, which serves as an electromagnetic protective layer. In particular, this protective layer makes the hose in the hose 14th running light-optical fiber from external electromagnetic interference signals, which, for example, from the electronic modules 2_1 - 2_6 are generated, at least for the most part isolated, so that signals can be transmitted by means of the fiber with almost no interference. In particular, the copper coating is designed to be electrically contactable, so that the protective layer can also be used, in particular, for conducting electrical currents, preferably for data transmission. The hose is therefore preferred 14th or its shell 15th even usable as an electrical cable, for example.

In the present exemplary embodiment, the function channel is 13th above the housing 3 or guided on these along the spiral row and by means of holding elements 16 on the housings 3 attached, of which in 1 for reasons of clarity, not all are provided with a reference number. Every case 3 points to this on its top 10 at least one holding element 16 for fastening the functional channel 13th on or on the housing 3 on. In the present exemplary embodiment, the holding elements are 16 additionally as contacting elements 17th formed, by means of which the electronic modules 2_1- 2 6 from the function channel 13th can be contacted in particular for data transmission. The function channel is for this purpose 13th by means of the contacting elements 17th at least in terms of communication technology, preferably wirelessly, connected to the electronic modules. In particular, the contacting elements 17th designed as an insulation displacement connector, by means of which an electrical conductor guided or formed through the functional channel can advantageously be electrically contacted. The contacting elements are alternatively or additionally 17th preferably designed as an adapter, by means of which the electronic modules 2_1 - 2_6 from within the functional channel 13th arranged optical fiber can be contacted and vice versa. The contacting elements are used accordingly 17th not only for fastening the functional channel 13th , but also for contacting the electronic modules 2 .

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• US 9415687 B2 [0002]

Claims (15)

Arrangement (1) of electronic modules (2_1 - 2_6) with a multiplicity of electronic modules (2_1 - 2_6), each electronic module (2_1 - 2_6) having a housing (3) comprising the respective electronic module (2_1 - 2_6) and having a predetermined size, characterized in that the electronic modules (2_1-2_6) are arranged one behind the other in a spiral row, starting from a first electronic module (2_1). Arrangement (1) according to Claim 1 , characterized in that in the course of the spiral row at least two of the housings (3) of the electronic modules (2_1-2_6) have different sizes from one another. Arrangement (1) according to one of the preceding claims, characterized in that starting from one of the electronic modules (2_1-2_6), in particular starting from the first (2_1) or second (2_2) of the electronic modules, the size of the housing (3) of the respective in the following electronic modules (2_2 - 2_6) increases gradually. Arrangement (1) according to one of the preceding claims, characterized in that the housings (3) each have a rectangular base area with at least one predetermined edge length (L) and a predetermined height (H). Arrangement (1) according to Claim 4 , characterized in that the housings (3) each have a square base area, so that side walls (4, 5) of the respective housing (3) each have the same edge length (L), with, in particular, except for the first (2_1) and the second (2_2) electronic module, each further electronic module (2_3 - 2_6) with one of its side walls (4, 5) at least two side walls (4, 5) lying in one plane of at least two electronic modules (2_1 - 2_6) in the row in front of it parallel opposite or adjacent to it. Arrangement (1) according to Claim 5 , characterized in that the edge length (L) of the side wall (4, 5) of each further electronic module (2_3 - 2_6) is the sum of the edge lengths (L) of the side walls (4, 5) lying parallel to it or lying against it and lying in one plane of the electronic modules (2_1 - 2_6) in front of it. Arrangement (1) according to one of the preceding claims, characterized in that, in particular apart from the first electronic module (2_1), each further electronic module (2_2 - 2_6) has at least two connecting devices (6) for mechanical connection with one further electronic module (2_1 - 2_6). Arrangement (1) according to Claim 7 , characterized in that the respective connecting device (6) is designed as a plug (7) or as a plug receptacle (8). Arrangement (1) according to Claim 7 or 8th , characterized in that the connecting devices (6) are designed for the electrical connection of the electronic modules (2_1-2_6) and / or for data transmission between the electronic modules (2_1-2_6). Arrangement (1) according to one of the preceding claims, characterized in that the arrangement (1) has a functional channel (13) running along the spiral row, which is connected to, connectable or separated from the electronic modules (2_1-2_6). Arrangement (1) according to Claim 10 , characterized in that the functional channel (13) is guided through the housing (3) or between the housings (3) or on the housings (3) of the electronic modules (2_1-2_6) along the spiral row. Arrangement (1) according to one of the Claims 10 or 11 , characterized in that the functional channel (13) is designed to conduct liquid and / or gaseous flows, so that the functional channel (13) can be used as part of a heat exchange system. Arrangement (1) after a Claims 10 until 12th , characterized in that the functional channel (13) is designed to transmit electrical and / or optical signals between at least two electronic modules (2_1-2_6). Arrangement (1) according to one of the preceding claims, characterized in that the housing (3) and / or the functional channel (13) have an electromagnetic protective layer. Arrangement (1) according to one of the preceding claims, characterized in that at least one of the housings (3) has a height (H) which is greater than the height (H) of the housing (3) located in front of it, in particular so that the spiral shape of the row rises out of a plane in which at least two of the housings (3) in front of the row are located.

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