DE102017215216A1 - Pressure compensation element for a housing with a radar sensor - Google Patents

Abstract

Housing (11) with a pressure compensation element (1), wherein the pressure compensation element (1) comprises a membrane layer (9) which is permeable to gases and for liquids at least from an outer housing side (15) to a housing inner side (17) is impermeable, characterized the pressure compensation element (1) further comprises a metallized additional layer (7).

Description

The invention relates to a housing with a pressure compensation element and a radar sensor in a housing with a pressure compensation element.

State of the art

From the DE 199 21 928 C2 Housing for an electronic assembly of a vehicle with a pressure compensation element is known. The pressure compensation element allows gases to pass from the interior of the housing to the outside while preventing the ingress of liquids into the housing.

Task and solution

The object of the present invention is to provide an improved pressure compensation element.

The problem is solved by a housing with a pressure compensation element according to the main claim. Further advantageous embodiments of the invention are the subject of the dependent claims.

According to the invention, the pressure compensation element in a housing comprises a membrane layer which is permeable to gases and impermeable to liquids at least from one outside of the housing to one inside of the housing, wherein the pressure compensation element further comprises a metallized additional layer.

Advantageously, the membrane layer allows gases to pass through the membrane layer from both sides, thus allowing pressure equalization between the two sides of the membrane layer.

Advantageously, the membrane layer prevents liquid and thus moisture from the outside of the housing of the membrane layer from reaching the inside of the membrane layer. This allows the membrane layer to protect components on the inside of the housing from moisture. Furthermore, the metallized additional layer allows electromagnetic shielding.

Advantageously, the semi-impermeable membrane layer allows condensed water to escape from the inside of the housing to the outside of the housing.

The metallized additional layer can preferably consist of a metal mesh or a metal flow or a metal mesh foil.

Advantageously, such a structure of the metallized additional layer is flexible and facilitates the processing of the pressure compensation element.

More preferably, the pressure compensation element may further comprise a carrier layer and / or protective layer.

Advantageously, the protective layer can protect the membrane layer and increase its mechanical resistance.

In a further advantageous manner, the carrier layer can support the membrane layer and thus increase its mechanical resistance.

In a further embodiment of the invention, the metallized additional layer can be formed by metallic vapor deposition of at least the carrier layer, protective layer or membrane layer.

Advantageously, such a structure of the metallized additional layer is particularly easy to produce.

Preferably, the pressure compensation element may further comprise an adhesive layer.

Advantageously, the adhesive layer can hold the pressure compensation element in the housing and thus improve the mechanical properties of the pressure compensation element.

More preferably, an electrically conductive plastic can be arranged between the housing and the pressure compensation element.

Advantageously, the conductive plastic increases the mechanical resistance of the pressure compensation element and improves the installation characteristics of the pressure compensation element in the housing. Furthermore, the conductive plastic allows a conductive connection between the metal layer and a conductive housing.

In a further embodiment of the invention, the metallized additional layer and / or the electrically conductive plastic may be electrically conductively connected to an electrically conductive housing layer of the housing.

Advantageously, this incorporates the pressure compensation element into the electromagnetic protective function of the housing and further improves the EMC properties of the housing.

Preferably, the housing with a pressure compensation element comprise a radar sensor.

For example, radar sensors are exceptionally sensitive to electromagnetic interference and therefore require EMC protection. Advantageously, an above housing produces this EMC protection. Furthermore, the EMC protection can be produced by the housing only on a bottom, to allow the aligned to the upper side of the housing antenna radiation.

More preferably, at least part of the radar sensor, the metallized additional layer or the conductive plastic and a conductive housing layer of the housing may be conductively connected and at a ground potential.

Advantageously, by the ground potential equalization currents between the radar sensor, the housing and the pressure compensation element prevented, and thereby achieves a gapless EMC protection. It makes sense to choose a common ground potential.

In a further preferred embodiment of the invention, the radar sensor can be installed with a housing in a vehicle, wherein furthermore at least a part of the vehicle is also conductively connected to the ground potential.

Advantageously, this compensating currents between the vehicle and the radar sensor including housing and pressure compensation element can be prevented and thus the EMC protection can be further improved.

list of figures

• 1 shows an embodiment of the pressure compensation element 1 , It consists of a carrier layer 5 , on the one hand a metallized additional layer or metal layer 7 and on the other side a protective layer 8th with adhesive pads 3 having. On the additional layer 7 there is a membrane layer 9 , The membrane layer 9 is at least semi-impermeable to liquids and permeable to gases.
• 2 shows a further embodiment of the pressure compensation element 1 , It consists of a carrier layer 5 , on the one hand a metallized additional layer or metal layer 7 and on the other side a membrane layer 9 having. The membrane layer 9 is at least semi-impermeable to liquids and permeable to gases. The metallized additional layer 7 gets through a protective layer 8th with adhesive pads 3 protected against environmental influences.
• 3 shows a further embodiment of the pressure compensation element 1 , The metallized additional layer 7 is covered by a protective layer 8th with adhesive pads 3 protected against environmental influences. Below the additional layer 7 is the membrane layer 9 which is at least semi-impermeable to liquids and permeable to gases. On the other side of the membrane layer 9 is the carrier layer 5 containing the membrane layer 9 carries and thus a contraction of the membrane layer 9 can prevent.
• 4 shows a further embodiment of the pressure compensation element 1 , The carrier layer 5 is covered by a protective layer 8th with adhesive pads 3 protected against environmental influences. Below the carrier layer 5 is the membrane layer 9 which is at least semi-impermeable to liquids and permeable to gases. The carrier layer 5 Thus, a contraction of the membrane layer 9 prevented. Below the membrane layer 9 is the metallized additional layer 7 showing the EMC characteristics of the pressure compensation element 1 can improve.
• 5 shows a further embodiment of the pressure compensation element 1 , The membrane layer 9 is covered by a protective layer 8th with adhesive pads 3 protected against environmental influences. The membrane layer 9 is at least semi-impermeable to liquids and permeable to gases. Below the membrane layer 9 is the metallized additional layer 7 showing the EMC characteristics of the pressure compensation element 1 can improve. The carrier layer 5 lies below the additional layer 7 and thus may cause contraction of the membrane layer 9 prevented.
• 6 shows a further embodiment of the pressure compensation element 1 , The membrane layer 9 is covered by a protective layer 8th with adhesive pads 3 protected against environmental influences. The membrane layer 9 is at least semi-impermeable to liquids and permeable to gases. Below the membrane layer 9 is the carrier layer 5 This may be a contraction of the membrane layer 9 prevent. Below the carrier layer 5 is the metallized additional layer 7 showing the EMC characteristics of the pressure compensation element 1 can improve.
• 7 schematically shows an embodiment of the greatly enlarged pressure compensation element 1 in a housing 11 with a radar sensor 13 as a cross section. The pressure compensation element shown there 1 is also in 1 shown. The pressure compensation element 1 just for illustration purposes above the radar sensor 13 lie, it can also be left, right or below the radar sensor 13 be arranged.

The pressure compensation element 1 has a protective layer 8th , a metallized additional layer 7 and a membrane layer 9 on. The housing 11 has a recess 14 on the outside of the case 15 smaller than on the inside of the housing 17 is. The pressure compensation element 1 that larger than the recess on the outside of the housing 15 but smaller than the recess on the inside of the housing 17 is so from the inside of the case 17 be pressed into the recess.

With the adhesive layer acting as adhesive pads 3 is formed, a holding connection between the pressure compensation element 1 and the housing 11 manufactured, since the housing wall has end faces for the adhesive pads in the recess.

A conductive layer integrated in the housing 12 , which circumscribes the housing, with the metallized additional layer 7 conductively connected and provides a closed Faraday cage of the housing 11 for sure.

The carrier layer 5 wears the adhesive layer 3 on the one hand and the metal or metallized additional layer 7 on the other hand. The membrane layer 9 protects the case 11 inside 17 against the ingress of liquids.

The pressure compensation element 1 comes with a plastic 19 encapsulated and thus additionally protected against falling out. Plastic 19 may be used alternatively or in addition to the adhesive pads. Furthermore, the metal or metallized additional layer 7 over the overmoulding, conductive plastic 19 with the conductive layer 12 of the housing 11 get connected. The electrically conductive connection between the conductive layer 12 of the housing 11 and the additional layer 7 can be further improved.

8th schematically shows a further embodiment of the greatly enlarged pressure compensation element 1 in a housing 11 with a radar sensor 13 as a cross section. The pressure compensation element shown there 1 is also in 4 shown. The pressure compensation element 1 just for illustration purposes above the radar sensor 13 lie, it can also be left, right or below the radar sensor 13 be arranged.

The pressure compensation element 1 has a protective layer 8th , a carrier layer 5 , a metallized additional layer 7 and a membrane layer 9 on. The housing 11 has a recess 14 on the outside of the case 15 smaller than on the inside of the housing 17 is. The pressure compensation element 1 that larger than the recess on the outside of the housing 15 but smaller than the recess on the inside of the housing 17 is so from the inside of the case 17 be pressed into the recess.

With the adhesive layer acting as adhesive pads 3 is formed, a holding connection between the pressure compensation element 1 and the housing 11 manufactured, since the housing wall has end faces for the adhesive pads in the recess.

One in the case 11 integrated conductive layer 12 that the case 11 revolves, with the metallized additional layer 7 conductively connected and provides a closed Faraday cage of the housing 11 for sure.

The carrier layer 5 wears the adhesive layer 3 on one side and the membrane layer 7 on the other hand. The membrane layer 9 protects the case 11 inside 17 against the ingress of liquids.

The pressure compensation element 1 comes with a plastic 19 encapsulated and thus additionally protected against falling out. Plastic 19 may alternatively or in addition to the adhesive pads 3 be applied. Furthermore, the metal or metallized additional layer 7 over the overmoulding, conductive plastic 19 with the conductive layer 12 of the housing 11 get connected. The electrically conductive connection between the conductive layer 12 of the housing 11 and the additional layer 7 can be further improved.

Of course, everyone in the 1 to 6 shown pressure compensation elements 1 in the in the 7 and 8th housing shown are installed. The circulating layer 12 is then in each case to the location of the additional layer 7 the pressure compensation element 1 adapt and connect with this.

9 shows a housing 11 with an internal radar sensor 13 , At least part of the radar sensor 13 is with a conductive layer of the housing 11 connected. The pressure compensation element 1 is inserted in the housing wall and also conductive with the conductive layer of the housing 11 connected. The housing 11 forms with the pressure compensation element 1 a Faraday cage for the radar sensor 13 ,

It makes sense to have the case 11 formed in two pieces, so that the pressure compensation element 1 in the case 11 can be used and then the housing 11 is closed. To the Connecting points of the two housing halves, a conductive connection of the conductive layer of the two housing halves can be ensured if a circumferential EMC protection is to be ensured.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• DE 19921928 C2 [0002]

Claims (10)

Housing (11) with a pressure compensation element (1), wherein the pressure compensation element (1) comprises a membrane layer (9), which is permeable to gases and liquids for at least one outside of the housing (15) to a housing inner side (17) is impermeable, characterized the pressure compensation element (1) further comprises a metallized additional layer (7). Housing (11) with a pressure compensation element (1) according to Claim 1 , wherein the metallized additional layer (7) consists of a metal mesh or a metal flow or a metal mesh foil. Housing (11) with a pressure compensation element (1) according to one of the preceding claims, wherein the pressure compensation element (1) further comprises a carrier layer (5) and / or protective layer (8). Housing (11) with a pressure compensation element (1) according to one of the preceding claims, wherein the metallized additional layer (7) by metallic vapor deposition of at least the support layer (5), the protective layer (8) or the membrane layer (9) is formed. Housing (11) with a pressure compensation element (1) according to one of the preceding claims, wherein the pressure compensation element (1) further comprises an adhesive layer (3). Housing (11) with a pressure compensation element (1) according to one of the preceding claims, wherein between the housing (11) and the pressure compensation element (1) an electrically conductive plastic (19) is arranged. Housing (11) with a pressure compensation element (1) according to one of the preceding claims, wherein the metallized additional layer (7) and / or the electrically conductive plastic (19) with an electrically conductive housing layer (12) of the housing (11) is electrically connected , Radar sensor (13) with a housing (11) according to one of the preceding claims. Radar sensor (13) according to Claim 8 , wherein at least - a part of the radar sensor (13), - the metallized additional layer (7) or the conductive plastic (19), and a conductive housing layer (12) of the housing (11) are conductively connected and are at a ground potential. Radar sensor (13) according to Claim 9 in a vehicle, further wherein at least a part of the vehicle is also conductively connected to the ground potential.

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