WO2018069156A1 - System comprising a housing and an electronics unit - Google Patents

Abstract

The invention relates to a system comprising a housing (10) and an electronics unit which is accommodated in the interior (10.2) of the housing (10) and which includes a circuit substrate (2) on which an electric circuit (4) and an electric terminal (6) for the electric circuit (4) are disposed, the electric terminal (6) being shielded against interference fields of the electric circuit (4) by means of a shield (8). In order to be able to shield an electric circuit of a system within a vast space while making it easy to mount the system, the shield (8) includes at least two separate shielding segments (8.1, 8.2) which can be interconnected when the system is converted into the mounted position thereof, one of the shielding segments (8.1) being in the form of a shielding wall (8.1), and the other shielding segment (8.2) constituting the housing cover (8.2); in the mounted position of the system, the shielding wall (8.1) is located between the circuit substrate (2) and the housing cover (8.2) acting as the shielding cover (8.2).

Description

 System with a housing and electronics

description

The present invention relates to a system referred to in the preamble of claim 1 Art.

Such systems comprising a housing formed from a first housing part and a housing cover which can be connected to the first housing part and an electronics, in particular power electronics, accommodated in an installation position of the system in the interior of the housing, with a circuit carrier attached to the first housing part, to which an electrical circuit and an electrical connection for the electrical circuit are arranged, wherein the electrical connection is shielded by means of a shield against electric and magnetic fields of the electrical circuit, are already known from the prior art in numerous embodiments. In principle, it is possible to shield an electronic system from the free environment by means of a metal housing. The area in which the electrical connection is arranged, however, remains problematic in terms of shielding. For this reason, a shielding box has hitherto been arranged around the electrical connection on the circuit carrier in order to shield the electrical connection and thus the free environment from electrical and magnetic fields of the electrical circuit. If, for example due to higher electrical powers, larger areas of the electrical circuit must be screened in this way, this is associated with problems in mounting the electronics to a carrier or in a housing.

This is where the present invention begins.

The present invention has for its object to provide a large-scale shielding of an electrical circuit of a system with a housing and electronics while ease of installation of the system. This object is achieved by a system having the features of claim 1. The subclaims relate to advantageous developments of the invention.

A significant advantage of the system according to the invention is, in particular, that even larger areas of the electrical circuit can be effectively shielded and at the same time common and proven mounting techniques for mechanical and thermal connection of the electronics can be maintained with a housing. The separate shielding segments of the shield allow access to the otherwise covered by the shield areas of the electrical circuit of the electronics during assembly of the electronics in a housing, so when transferring the system in a mounting position. The shielding segment designed as a shielding wall can be mechanically connected in advance to the circuit carrier, so that a precise positioning of this shielding segment of the shield, for example in the region of the electrical connection of the electrical circuit, is facilitated. The other shielding segment of the shielding, namely the housing cover designed as a shielding cover, can also be precisely aligned with the pre-mounted shielding wall, so that effective shielding is ensured despite shielding with at least two separate shielding segments in the mounting position of the electronics. In addition, the number of components is reduced by the formation of the housing cover as Abschirmdeckel, which facilitates the structural design and allows cost-effective production.

A particularly advantageous embodiment of the system according to the invention provides that the shielding wall and the housing cover in a mounting position of the system are releasably connected to each other, in particular overlapping. As a result, access to the otherwise covered by the shield areas of the electrical circuit is made possible even after the installation of the electronics in the housing. Overlapping of the shield's separate shield segments in the system's mounting position further improves the screen attenuation of the shield. Another advantageous development provides that the housing cover has a groove for receiving a in the mounting position of the system, the housing cover opposite edge of the shield. In this way, the shield attenuation of the shield is further improved.

In principle, the materials for the shielding wall, the first housing part and the housing cover designed as a shielding cover are freely selectable within wide suitable limits. Advantageously, the shielding wall of the shield is formed as a metal part, in particular as a sheet steel part. As a result, a good shielding attenuation can be achieved in a structurally simple manner, even with low wall thicknesses. In particular steel sheet is very well suited for this purpose due to its material properties. It is also conceivable, however, the use of metal casting, such as metal die casting. It is also advantageous that the first housing part and / or the housing cover is / are formed as a metal part, in particular as a die-cast part. In this way, on the one hand, additional shielding of the electrical circuit is realized in a structurally simple manner. On the other hand, in the case of a metal housing designed as a first housing part effective cooling of the electrical circuit without additional components allows.

A particularly advantageous embodiment of the system according to the invention provides that the shield is arranged on the side facing away from the first housing part of the circuit substrate and the first housing part and the circuit substrate on their opposite sides mutually corresponding shielding means, the electrical connection in the mounting position of the system Shield against electrical and magnetic fields of the electrical circuit. This offers the significant advantage that the electrical connection of the electrical circuit, for example, in a two-sided assembly of the circuit substrate with electrical components, in a mounting position of the system, ie mounted in the housing electronics, effectively shielded against electrical and magnetic fields of the electrical circuit , Correspondingly, the side of the circuit carrier facing the first housing part in the mounting position of the system can also be used for the electrical circuit. An advantageous development of the aforementioned embodiment provides that the shielding means of the first housing part are formed as a Abschirmsteg and the shielding means of the circuit substrate as a shielding contact surface formed corresponding to the Abschirmsteg. In this way, the shielding of the first housing part and the circuit substrate are realized in a structurally simple way.

A further advantageous embodiment provides that the first housing part overlaps with the shielding wall in the mounting position of the system. As a result, the shielding attenuation in the contact region of the shielding wall with the first housing part is improved.

Another advantageous development of the system according to the invention provides that the first housing part and the housing cover are connected to one another via a tongue and groove connection, in particular with an adhesive arranged between tongue and groove. As a result, a mechanically reliable and, for example, against splash water or the like tight connection between the first and the second housing part is realized.

An alternative to a bonding of the first housing part and the housing cover further development provides that the housing cover is designed as a in the mounting position of the system of the first housing part detachable housing cover, with or without tongue and groove connection. As a result, the electronics according to the invention is protected from undesired environmental influences. In addition, the unwanted access of people to the electronics is effectively prevented. At the same time, the desired access to the electronics through the detachable housing cover is also after the assembly of the system according to the invention, ie after the transfer of the system in its mounting position, in which the electronics in the limited by the first housing part and the first housing part housing cover interior of the housing is arranged allows. Reference to the accompanying, rough schematic drawing, the invention will be explained in more detail below. Showing:

1 shows an embodiment of a system according to the invention in a partial view in a first perspective view,

 2 shows the embodiment in a partial view in a plan view of the first housing part,

 3a shows the embodiment in a partial view in a plan view of the first housing part with circuit carrier and shielding wall,

 3b is a detail view of the designated in Fig. 3a with "A" area,

 Fig. 4 shows the embodiment in a partial view in a second perspective view and

 Fig. 5 shows the embodiment in a sectional view.

In the following, the system according to the invention will be explained in more detail with reference to FIGS. 1 to 5. Identical or equivalent components are denoted by the same reference numerals.

In Fig. 1, an embodiment of a system according to the invention is shown in a partial view. The system according to the invention has an electronics designed as a power electronics, namely as a DC voltage converter for a two-voltage on-board network for a motor vehicle, not shown. The DC-DC converter has a designed as an electrical circuit board circuit substrate 2, on which an electrical circuit 4 for DC voltage conversion and designed as an edge connector strip made of plastic electrical connection 6 are arranged with a web 6.1 for the electrical circuit 4. The circuit substrate 2, in addition to a visible in Fig. 1 mounting surface 2.1 for the assembly of electrical components 7 on another in Fig. 1, not shown mounting surface, which is arranged on the mounting surface 2.1 opposite side of the circuit substrate 2. On the circuit substrate 2 is a substantially perpendicular to the circuit substrate 2 extending and designed as a shield shielding 8.1 a shield 8 is arranged, wherein the shield 8.1 shields the region of the edge connector 6 with respect to the electrical circuit 4 in the manner explained below. The shield 8.1 is made of sheet steel, folded several times and engages with in the position shown in Fig. 1 the circuit substrate 2 facing mounting projections through slots of the circuit substrate 2 therethrough. The mounting projections are rotated to mount the shielding 8.1 behind the not visible in Fig. 1 mounting surface of the circuit substrate 2 such that the shield 8.1 is positioned on the circuit substrate 2 and mechanically fixed. The fixing projections formed on the shielding wall 8.1 and the corresponding slots of the circuit substrate 2 are not shown.

Fig. 2 shows the embodiment in partial view, wherein in Fig. 2, only a first housing part 10.1 of a housing 10 is shown. The first housing part 10.1 is made as a metal die-cast part made of aluminum and has four internal threads 10.1 .1 for fixing screws 12 shown in FIG. 3a. As can likewise be seen from FIG. 3 a, the circuit carrier 2 with the four fastening screws 12 is screwed tightly to an inner space 10. 2 of the housing 10 on the first housing part 10. 1 of the housing 10. For this purpose, the circuit carrier 2 on four through holes 2.2, of which in Fig. 1, only two through holes 2.2. are visible. On the one hand, the circuit carrier 2 and thus the electronics are thereby fastened to the first housing part 10.1. On the other hand, the screw connection also serves the purpose of producing an electrically conductive connection, namely a grounding of the circuit carrier 2. In Fig. 3a, the electrical components of the electrical circuit 4 are not shown predominantly.

Furthermore, it is clear from the synopsis of FIGS. 2 and 3 a that on the first housing part 10. 1 of the housing 10 a shielding means 10. 1. 2 designed as a shielding web is formed. The Abschirmsteg 10.1 .2 runs approximately parallel to the mounted on the circuit substrate 2 shielding 8.1 and serves to the Randste- Guard bar 6 against the on the in Fig. 3a the first housing part 10.1 facing and therefore not visible mounting surface arranged part of the electrical circuit 4 shield. For this purpose, a shielding means 2.3 corresponding to the shielding web 10.1 .2 and designed as a shielding contact surface is arranged on the mounting surface not visible in FIG. 3a; see Fig. 5. In the mounting position of the system, so mounted in the housing 10 electronics, the Abschirmsteg 10.1 .2 of the first housing part 10.1 abuts the Abschirmkontaktfläche 2.3 of the circuit substrate 2, so that the edge connector strip 6 in this area on both electrical components 7 equipped sides of the circuit substrate 2 is effectively shielded against electrical and magnetic fields of the electrical circuit 4.

3a shows an enlarged view of the detail labeled "A" in FIG. 3a This detail is formed on the contact point between the shielding wall 8.1 and the first housing part 10.1 shown on the left in FIG 3 b shows that the shielding wall 8.1 mounted on the circuit carrier 2 engages in a groove formed by an edge 10 .1 of the first housing part 10. 1 The first housing part 10. 1 thus overlaps the shielding wall 8 in a labyrinth-like manner. so that the shield attenuation in the area of the edge connector strip 6 is further improved.

In Fig. 4, the inventive system of the present embodiment is shown in partial view in a further perspective view. It can be clearly seen how the web 6.1 of the edge connector strip 6 a web 10.1 .4 of the first housing part 10.1 supplemented in the mounting position of the system, so that a circumferential spring for a tongue and groove connection of the first housing part 10.1 with a shield as from Die-cast aluminum housing cover 8.2 results. The shield cover 8.2 and the groove formed therein 8.2.1 for the tongue and groove connection to the first housing part 10.1 are shown in Fig. 5. In order to protect the inventive electronics in the interior 10.2 of the housing 10 from splashing or the like, the tongue and groove connection 6.1, 10.1 .4, 8.2.1 is additionally sealed in the mounting position of the system by an adhesive, not shown. Fig. 5 shows a section through the inventive system of the present embodiment in a complete view. The section runs in the image plane of Fig. 3a in the region of the edge connector strip 6 in the vertical direction and is shown in Fig. 3a by a dash-dotted section line 14. It can be clearly seen how the housing cover 8.2 designed as a shielding cover closes off the first housing part 10.1 in such a way that a closed housing 10 results when the edge connector strip 6 is mounted. Visible is also the tongue and groove connection 10.1 .4, 8.2.1 between the first housing part 10.1 and the housing cover 8.2.

As can be clearly seen from the synopsis of, for example, FIG. 1 and FIG. 5, the shielding cover 8.2 is a component of the shielding 8 that is separate from the shielding wall 8.1. Only when the electronics are mounted on the first housing part 10.1 and thus during assembly of the invention Systems are the shield 8.1 and the shield 8.2 of the shield 8 connected to each other mechanically so that the edge connector strip 6 and thus the free environment against electrical and magnetic fields of the electrical circuit 4 are shielded. As shown in FIG. 5, the housing cover 8.2 designed as a shielding cover has a groove 8.2.2, which is formed precisely to the edge 8.1 .1 of the shielding wall 8.1 opposite the mounting position of the system of the groove 8.2.2, so that in The mounting position of the system shown in FIG. 5, ie electronics mounted on the first housing part 10.1 and shielding cover 8.2 mechanically connected to the first housing part 10.1, a shield 8 closed to the mounting surface 2.1 of the circuit substrate 2 shown in FIG results. Correspondingly, the shielding wall 8.1 and the shielding cover 8.2 overlap in a labyrinth-like manner in order to ensure effective shielding of the shielding 8 in the area of the edge connector strip 6.

Furthermore, it can be seen from FIG. 5 that the shielding 8 with its shielding wall 8. 1 and its shielding cover 8. 2 in the illustrated mounting position of the system covers the majority of the circuit carrier 2 and thus also the through holes 2.2 for the circuit carrier 2 and partially shown in FIG the fastening supply screws 12, with which the circuit substrate 2 is screwed to the first housing part 10.1 and grounded at this covers. The screw is not accessible in the mounting position of the system, ie at mechanically interconnected Abschirmsegmenten 8.1 and 8.2 of the shield 8. Due to the non-detachable connection between the first housing part 10.1 and the shielding cover 8.2, the shield 8 in the present embodiment, however, can not be dismantled again, so that the fastening screws are no longer accessible. In another possible embodiment, in which the housing cover designed as a shield cover is designed as a housing cover which is detachable from the first housing part in the mounting position of the system, the abovementioned restriction does not exist.

The procedure for the transfer of the electronics in their mounting position and thus also the transfer of the system in its mounting position with reference to FIGS. 1 to 5 explained below.

In the transfer of the system of the present embodiment in its mounting position, ie when mounting the electronics in the housing 10 and the subsequent mechanical connection of the first housing part 10.1 with the cover designed as a cover 8.2, the shielding 8.1 first in the manner explained above attached to the circuit carrier 2; see Fig. 1. Thereafter, the complete now electronics is installed in the first housing part 10.1 of the housing 10 except for the shield cover 8.2; See Figs. 2 to 4. The shield web reach 10.1 .2 of the first housing part 10.1 and shown in Fig. 5 Abschirmkontaktfläche 2.3 of the circuit substrate 2 in the already explained manner in electrically conductive contact, so that the edge connector strip 6 and thus the free Environment in this area is shielded from the electrical circuit 4 of the electronics. In order to complete the shielding 8 of the electronics, the housing cover 8.2 designed as a shielding cover is attached to the first housing part 10.1 and thus simultaneously to the already mounted shielding wall 8.1 of the shielding 8. The shield cover 8.2 with the groove 8.2.2 formed thereon engages around the shielding wall 8.1 in the manner explained above. As a result, the Screen cover 8.2 relative to the shielding 8.1 and thus positioned relative to the circuit substrate 2 in the desired manner and set. The shield 8 is completed and protects in this area the edge connector strip 6 and thus the free environment from unwanted electrical and magnetic fields of the electrical circuit 4. The shield of the system is complete. In order to permanently secure the built-in housing 10 electronics from unwanted access and to ensure a splash protection, is formed in the by the webs 6.1, 10.1 .4 and the groove 8.2.1 trained tongue and groove connection 6.1, 10.1 .4 and 8.2 .1 additionally introduced an adhesive, not shown, so that the first housing part 10.1 is connected to the housing cover designed as a shield cover 8.2 of the housing 10 inextricably after the initial assembly.

The invention is not limited to the present embodiment. The electrical connection does not necessarily have to be an edge connector strip or even a connector strip. For example, the electrical connection can also be arranged in a central region of the circuit carrier of the electronics and thus in an assembly position of a system according to the invention in a central region of the first housing part. The at least two separate shielding segments can have any shape, spatial orientation and arrangement suitable for the respective individual case. The materials for the individual components of the system according to the invention are also freely selectable within wide suitable limits and matched to the particular application. For example, other metals and manufacturing processes could be used instead of steel sheet and die-cast aluminum. Metal alloys and composite materials are also conceivable. It is crucial whether the function of the respective component according to the invention can be fulfilled by the selected material. Depending on the available space as well as weight and temperature specifications, materials with greater or lesser shielding attenuation can be used for the shielding and / or the first housing part as well as with lower or higher specific heat capacity for the first housing part. Other connection techniques known to the person skilled in the art for connecting the housing parts or the shielding segments are also possible. The shielding means of the first housing part and of the circuit carrier may also be different have known and suitable training. Deviating from the exemplary embodiment of the system according to the invention, the housing cover designed as a shielding cover can be designed as a housing cover which can be detached from the first housing part after assembly of the system.

LIST OF REFERENCE NUMBERS

2 circuit carrier, designed as an electrical circuit board

 2.1 Placement area of the circuit carrier 2

 2.2 through holes of the circuit substrate 2

 2.3 shielding of the circuit substrate 2, designed as Abschirmkontaktfläche

 4 electrical circuit

 6 Electrical connection, designed as edge connector strip

 6.1 Bar of the edge connector strip 6

 7 electrical components

 8 shielding

 8.1 shielding segment, designed as a shielding

 8.1 .1 edge of the shield 8.1

 8.2 shielding segment, designed as shielding cover and at the same time as a housing cover

 8.2.1 Groove of the shielding cover 8.2, for the tongue and groove connection with the first housing part 10.1

 8.2.2 Groove of the shielding cover 8.2, for the shielding connection with the shielding wall 8.1

 10 housing

 10.1 first housing part of the housing 10th

 10.1 .1 Internal thread of the first housing part 10.1

 10.1 .2 shielding of the first housing part 10.1, designed as Abschirmsteg

 10.1 .3 edge of the first housing part 10.1

 10.1 .4 web of the first housing part 10.1

 10.2 Interior of the housing 10

 12 fixing screws

 14 section line of the section shown in Fig. 5

Claims

claims

1 . System comprising a housing (10) formed from a first housing part (10.1) and a housing cover (8.2) which can be connected to the first housing part (10.1) and an electronics accommodated in an installation position of the system in the interior (10.2) of the housing (10), in particular power electronics, having a circuit carrier (2) fastened to the first housing part (10.1), on which an electrical circuit (4) and an electrical connection (6) for the electrical circuit (4) are arranged, the electrical connection (6) is shielded by means of a shield (8) against electric and magnetic fields of the electrical circuit (4), characterized

 in that the shielding (8) has at least two separate shielding segments (8.1, 8.2) which can be connected to one another during the transfer of the system into its mounting position, one shielding segment (8.1) acting as a shielding wall (8.1) and the other shielding segment (8.2) are formed as the housing cover (8.2) and the shielding wall (8.1) in the mounting position of the system between the circuit substrate (2) and the shield cover (8.2) acting as the housing cover (8.2) is arranged.

2. System according to claim 1,

 characterized,

 the shielding wall (8.1) and the housing cover (8.2) are detachably connected to each other in a mounting position of the system, in particular overlapping.

3. System according to claim 1 or 2,

 characterized,

that the housing cover (8.2) a groove (8.2.2) for receiving a in the mounting position of the system the housing cover (8.2) opposite Edge (8.1 .1) of the shield (8.1).

4. System according to one of claims 1 to 3,

 characterized,

 in that the shielding wall (8.1) of the shielding (8) is designed as a metal part (8.1), in particular as a sheet steel part (8.1).

5. System according to one of claims 1 to 4,

 characterized,

 the first housing part (10.1) and / or the housing cover (8.2) is / are designed as a metal part (10.1, 8.2), in particular as a die-cast part (10.1).

6. System according to one of claims 1 to 5,

 characterized,

 the shield (8) is arranged on the side of the circuit carrier (2) facing away from the first housing part (10.1), and the first housing part (10.1) and the circuit carrier (2) have shielding means (10.1 .2, 2.3 ), which shield the electrical connection (6) in the mounting position of the system against electric and magnetic fields of the electrical circuit (4).

7. System according to claim 6,

 characterized,

 in that the shielding means (10.1.2) of the first housing part (10.1) are designed as a shielding web (10.1.2) and the shielding means of the circuit carrier (2) as a shielding contact surface (2.3) designed to correspond to the shielding web (10.1.2).

8. System according to one of claims 1 to 7,

characterized, that the first housing part (10.1) overlaps in the mounting position of the system with the shielding (8.1).

9. System according to one of claims 1 to 8,

 characterized,

 that the first housing part (10.1) and the housing cover (8.2) via a tongue and groove connection (10.1 .4, 8.2.1), in particular with an arranged between the groove (8.2.1) and spring (10.1 .4) adhesive, connected to each other.

10. System according to one of claims 1 to 8,

 characterized,

 that the housing cover is designed as a in the mounting position of the system of the first housing part detachable housing cover.