WO2021148180A1

WO2021148180A1 - Impact sensor with a tubular body

Info

Publication number: WO2021148180A1
Application number: PCT/EP2020/084350
Authority: WO
Inventors: Cosmin Ion - c/o Conti Temic microelectronic GmbH LOCOVEI; Cosmin - c/o Conti Temic microelectronic GmbH JEJERAN; Gabriel - c/o Conti Temic microelectronic GmbH GORON
Original assignee: Continental Automotive Gmbh
Priority date: 2020-01-23
Filing date: 2020-12-03
Publication date: 2021-07-29

Abstract

The invention relates to the design of an impact sensor with a tubular body (1) and at least one pressure sensor (41) for detecting a change in pressure in the tubular body (1) and for detecting an impact from the change in pressure. The at least one pressure sensor (41) is arranged on a printed circuit board (4) in the interior (15) of the housing (10), and electric press-in contacts (3) are provided so as to run through the housing, wherein the contacts are connected to the printed circuit board (4) in the interior, and the opposite ends of the contacts can be contacted in a plug region. The housing (10) is equipped with a connection piece (11), which comprises a pressure passage channel (11.1) that is open towards the interior of the housing, for the tubular body (1) as well as a pressure equalization opening (12.1) to the surroundings, said pressure equalization opening being protected at least by means of a moisture-impermeable membrane (2). The pressure equalization opening (12.1) is provided on the housing face (12) lying opposite the connection piece (11) in a parallel manner thereto, and the plug region (13) is arranged on another housing face, the housing face with the plug region (13) being arranged at an angle differing from null, preferably at a right angle, to the housing faces (12, 11) with the pressure equalization opening (2) and the connection piece (11). The printed circuit board (4) is arranged at a distance from the housing wall with the plug region (13) and parallel to the housing wall with the plug region (13), and the press-in contacts (3) run in a straight manner and are arranged so as to run from the plug region (13) to the printed circuit board (4) through the interior (15).

Description

Impact sensor with a tubular body

The invention relates to an impact sensor with a tubular body according to the preamble of claim 1, as is known, for example, from WO 2012113362 A1.

The at least one pressure sensor is arranged in the interior of a housing on a circuit board. On the housing, on one side of the housing, a connection piece, which is open towards the interior of the housing with a pressure passage channel, is provided for connecting the tubular body or is connected in the finished state. The interior of the housing thus represents a pressure chamber, so to speak.

In addition, a pressure compensation opening to the environment is arranged on the housing, which is protected by a moisture-impermeable membrane in order to be able to compensate long-term pressure differences to the environment and to avoid condensation in the interior of the housing and thus also on the circuit board. However, the size of the pressure equalization opening or the corresponding amount of pressure equalization is so small or so slow that a pressure change resulting from the impact can still be measured with sufficient accuracy at the pressure sensor, essentially unadulterated.

A corresponding pressure equalization is also alternatively described, for example, by the applicant's WO 2015024562 A1.

In order to enable the simplest and most economical production possible, electrical press-in contacts are also provided through the housing, which are connected to the circuit board in the interior and whose opposite ends can be contacted in a connector area. Straight press-in contacts, that is to say lying in one plane, are also known per se, for example from DE 10 2013 104 312 A1 or DE 10 2013 104 481 A1, but the embodiments there are not suitable for an impact sensor with a tubular body. Therefore, WO 2019/072343 also shows a further alternative embodiment of an impact sensor with a tubular body, in which, however, the circuit board lies in a plane parallel to the connector area direction and the press-in contacts are appropriately angled and introduced from the housing interior via a multi-stage joining process Need to become.

The object of the present invention is to further reduce the manufacturing effort and thus to enable more cost-effective manufacture. This object is achieved by the features of the independent claims. Advantageous further developments of the invention emerge from the subclaims, combinations and further developments of individual features with one another also being conceivable.

An essential idea of the invention is that, on the one hand, the pressure compensation opening is provided on the housing side parallel to the connection piece and, on the other hand, the plug area is arranged on a further housing side, which is arranged at an angle, preferably at right angles, to the housing sides of the pressure compensation opening and the connection piece , and also the circuit board spaced from the housing wall of the connector area parallel to this and the press-in contacts are designed to run straight and are arranged from the connector area through the interior to the circuit board.

Advantageous further developments of the invention can be found in the subclaims as well as the description and the figures of the following exemplary embodiments.

Show it:

Figure 1 is a sketchy exploded view of an embodiment

Figure 2 is a sketch of a section through the embodiment in the area of

Connecting piece

FIG. 3 shows a sketch of a section through the exemplary embodiment in the area of FIG

Pressure equalization opening

FIG. 4 shows a sketch of a view of the exemplary embodiment from the outer space opening into the housing before the circuit board is inserted

FIG. 1 shows a sketch of an exploded view of an exemplary embodiment of the impact sensor according to the invention with a tubular body (1) which is of course only shown here in a short piece. In reality, this tubular body (1) is usually provided over the width of a bumper in the motor vehicle, for example over 2 m long and usually equipped on both sides with such a housing with a pressure sensor. The core of the invention, however, is exclusively the internal structure within the housing and, in so far, the sketch is also based accordingly on these details.

FIG. 1 also illustrates the position of the sectional planes SF2 of FIG. 2 as well as SF3 and SF4 of FIG. 4 in the respective spatial shape and these are additionally illustrated by a coordinate system and reference is made to this in each case.

The system has a pressure sensor (41) for detecting the pressure change in the tubular body (1) and detecting an impact from the pressure change, the at least one pressure sensor (41) being arranged in the interior of the housing (10) on a circuit board (4) and electrical press-in contacts (3) are provided through the housing, which are connected in the interior to the circuit board (4) and whose opposite ends can be contacted in a plug area (13).

A connection stub (11) for the tubular body (1), which is open towards the interior of the housing with a pressure passage (11.1), is arranged on the housing (10), as can be seen even better in FIG.

In addition, is on the opposite side of the housing parallel to the connecting piece (11)

(12) a pressure equalization opening (12.1) to the surroundings at the rear is provided, which is at least protected by means of a moisture-impermeable membrane (2), here in the preferred exemplary embodiment additionally protected against direct impact of water jets on the membrane 2 by a splash protection cover 22. FIG. 3 shows a corresponding section through the assembly through the pressure compensation opening (12.1).

The plug area (13) is arranged on a further, i.e. different housing side, this housing side with the plug area (13) to the previously discussed housing sides (12, 11) of the pressure equalization opening (2) and the connecting piece (11) in one of zero is arranged at different angles, preferably at right angles.

The printed circuit board (4) is spaced from the housing wall of the connector area (13), that is, at a distance greater than zero and is arranged here in accordance with the entire interior space, preferably parallel to this housing wall of the connector area

(13).

As shown in FIG. 1, the press-in contacts (3) are designed to run straight. In the pressed-in state, the press-in contacts (3) are arranged from the connector area (13) through the interior space (15) to the printed circuit board (4). In a preferred embodiment, the press-in contacts (3) are also pressed into the housing from the outside through the plug area (13).

The housing (10) has a receptacle (14.2) for the circuit board (4) and an interior opening (14.1) to the interior for at least the pressure sensor (41) on the housing wall (14) opposite the housing wall of the connector area (13). FIGS. 2 and 3 therefore show, looking from the interior in the X direction, the sections of the printed circuit board 4 visible through the interior opening (14.1) and in particular the pressure sensor (41) arranged thereon and protruding into the interior. In addition, however, the press-in contacts (3) protruding through this interior space can also be clearly seen in the section in FIGS. 2 and 3.

In this preferred exemplary embodiment, the circuit board (4) is introduced into the receptacle (14.2) on this housing wall (14) through an outer space opening (14.3) from the housing side (14) opposite the connector area (13). To illustrate this, FIG. 4 shows another view of the housing from the outside in the opposite X-direction, namely before the circuit board (4) is inserted. A preferably circumferential edge protrudes from the housing in the X direction and forms the outer space opening (14.3) located therein, the shape of which in the YZ plane is adapted to the dimensions of the circuit board (4) so that the circuit board (4) passes through it Outside opening (14.3) can be introduced accordingly. Set back to this, the actual receptacle (14.2) is then formed by edge areas around the interior opening (14.1), the printed circuit board coming into contact with these edge areas and being held in position there.

In a preferred embodiment, the outer space opening (14.3) and circuit board (4) are closed by a potting material (44) after they have been introduced. List of reference symbols:

1 tubular body

2 pressure compensation membrane

3 press-fit pins

4 circuit board

10 housing

11 connection pieces

12 Pressure compensation page

13 Connector area

14 Opposite side to the connector area

15 Interior of the housing

11.1 Pressure channel through connection nozzle

12.1 Pressure compensation opening

14.1 inner opening on the housing side 14

14.2 Receptacle for the printed circuit board 4 on the housing side 14

14.3 outer opening on the housing side 14 22 protective cover over pressure compensation element 2 44 potting material

Claims

1) Impact sensor with a tubular body (1) and at least one pressure sensor (41) for detecting the pressure change in the tubular body (1) and detecting an impact from the pressure change, the at least one pressure sensor (41) in the interior (15) of a housing (10) is arranged on a circuit board (4) and electrical press-in contacts (3) are provided through the housing, which are connected in the interior to the circuit board (4) and whose opposite ends can be contacted in a connector area on the housing (10) A connection piece (11) open to the interior of the housing with a pressure passage (11.1) for the tubular body (1) and a pressure equalization opening (12.1) to the environment, which is protected at least by means of a moisture-impermeable membrane (2), characterized in that that the pressure equalization opening (12.1) is on the side of the housing parallel to the connection piece (11) opposite (12) is provided, the connector area (13) is arranged on a further housing side, this housing side with the connector area (13) to the housing sides (12,11) of the pressure compensation opening (2) and the connection piece (11) in one of Zero different angles, preferably at right angles, the circuit board (4) spaced from the housing wall of the connector area (13) and parallel to this housing wall of the connector area (13) and the press-in contacts (3) are designed to run straight and from the connector area (13) are arranged to run through the interior space (15) towards the circuit board (4).

2) Impact sensor according to claim 1, characterized in that the housing (10) on the housing wall (14) opposite to the housing wall of the connector area (13) has a receptacle (14.2) for the circuit board (4) and an interior opening (14.1) for Has interior space for at least the pressure sensor (41). 3) Impact sensor according to claim 2, characterized in that the press-in contacts (3) from the housing wall (14) opposite to the housing wall of the plug area (13) through the interior opening (14.1) and the interior from the inside into the plug area ( 13) are pressed into the housing (14).

4) Impact sensor according to claim 3, characterized in that the circuit board (4) is introduced into the receptacle (14.2) on this housing wall (14) through an outer space opening (14.3) from the housing side (14) opposite the connector area (13) is.

5) Impact sensor according to claim 4, characterized in that the outer space opening (14.3) and printed circuit board (4) are closed by a potting material (44) after their introduction.

6) Impact sensor according to claim 4, characterized in that the circuit board (4) is clamped with its edge by being pressed into the outer space opening (14.3) and the outer space opening (14.3) is preferably laser-welded to the edge of the outer space by a cover. Opening (14.3) are closed.