DE10221303A1 - Sensor, in particular ultrasound sensor, and method of manufacture - Google Patents

Abstract

The invention relates to a sensor, in particular an ultrasonic sensor of a vehicle surroundings detection system, with a housing composed of a plurality of housing parts and with sensor components accommodated within the housing. The invention is characterized in that the housing parts are joined together in a moisture-tight manner.

Description

The invention relates to a sensor, in particular one Ultrasonic sensor of a motor vehicle environment detection system, with a housing composed of several housing parts and housed within the housing Sensor components.

With such sensors it is known that the individual Housing parts by plugging them into each other and locking them together be added. To ensure good tightness of the sensor ensure the connection points of each Housing parts must be very precisely coordinated, which leads to leads to high manufacturing costs. Failure to comply with high-precision tolerances, long routes and critically narrow ones Space constraints of the sensor components always lead to defective installation of the sensors. The sensors are therefore very prone to failure and have a short Lifespan.

The invention is based, sensors to provide a high level of functional reliability, a high have the lifespan and low manufacturing costs. The Sensors are also said to be robust against environmental influences.

This task is performed by a sensor of the type mentioned Art solved according to the invention in that the housing parts are joined together moisture-tight. By incoming Examination of the sensors according to the known state of the Technology has shown that it becomes one Moisture can enter the sensors. Already a very small amounts of moisture can suffice to achieve that Adversely affect the functioning of the sensors. The Invention has the advantage that no moisture in the Sensor penetrate and the functioning of the sensor negative can influence. The functional reliability of the sensor is increased by the invention.

A particularly preferred embodiment of the invention has the advantage that the enclosed by the housing parts Sensor interior at least largely with a filling or Potting compound is filled. The sensor is preferably completely filled with filler or potting compound. Through the Filling or casting compound becomes an additional sealing effect generated, which the sensor components additionally before penetrating Protects moisture.

The provision of a filling or potting compound also has the Advantage that the sensor components are fixed in their position fixed and permanently preserved. This will make the added effect that the case looks like a one-piece vibrating body behaves. A relative movement of the individual components of the sensor are mutually based on them firmly anchored in the filling or casting compound locked out. Such an achievable vibratory capacity carries to a more even radiation characteristic of the sensor at. The ability to vibrate depends primarily on the Geometries of the housing parts and the sensor components, the used materials and the filling or casting compound.

A particularly advantageous, easy to assemble, moisture-proof and permanently functional sensor arises when the housing parts in the joined state welded together, especially laser welded, ultrasonically welded, friction welded, hot air welded or the like. The individual housing parts are preferably made of Plastic and become moisture-proof by welding joined together.

According to the invention, it is also conceivable that the housing parts cohesive with each other and possibly also form-fitting are connected. By cohesive connection, for example by gluing, the housing parts moisture-proof. to Relieving the glue spots can be beneficial Housing parts to be joined in a positive manner. Mechanical loads that occur are advantageous intercepted by the positive locking of the housing parts and the Glue points are relieved.

A particularly advantageous sensor is obtained if only two housing parts to be joined together are available are. Such a component reduction has only one joining section lying between the two housing parts, which is moisture-proof. Moisture other places can not penetrate the sensor. The provision of only two housing parts also leads to a more even and therefore better vibration behavior of the sensor.

An advantageous embodiment of the invention stands out characterized in that at least two housing parts in the area, in which they are joined together, at least one largely circular or cylindrical cross-section exhibit. Such circular and / or cylindrical Cross sections are particularly good, moisture-proof to be joined together. In particular welding or gluing is advantageous on such cross sections possible.

To ensure adequate tightness between the housing parts reach are the areas where the housing parts are joined together, abutting one another and / or interdigitated. It is possible before moisture-proof joining the two housing parts in in a first step, abutting one another and / or to be interdigitated. In a next one Step then the housing parts are welded together or glued.

To simplify the assembly of the sensor and a To ensure the sensor can function properly be provided according to the invention that on the inside of the Housing parts guide and / or holding sections for the Sensor components are provided. Leadership and / or Holding sections are advantageously arranged such that the sensor components can be inserted axially into the housing parts or can be inserted.

The sensor components can in particular be a cup-shaped membrane and connected to the membrane electronic components, preferably on a Printed circuit board are arranged include. The membrane and the As such, electronic components can be separated Manageable assemblies are preassembled and during assembly of the sensor are inserted into it.

It is also advantageous if a housing part is the housing part has tightly penetrating connector strands that with the electronic components are connected. About such Connector strands is a contacting of the sensor for example a control unit or an evaluation unit possible without moisture penetrating into the sensor.

The task mentioned at the outset is also supported by a Method for producing a sensor according to the invention solved, the housing parts by welding, in particular by laser welding, ultrasonic welding, friction welding, Hot air welding or the like can be joined together.

An advantageous method of making a sensor according to the invention also results if the Housing parts integrally and possibly also be positively connected.

To an inexpensive, automated manufacturing process the sensor components and the housing parts are to be made possible according to a further embodiment of the invention can be assembled together in one line or from one direction or available.

According to the invention after joining the housing parts Potting compound or filling compound injected into the sensor. The The mass is advantageously hot and has a low mass Viscosity on. As the mass cools down, the viscosity increases to the crowd. The potting or filling compound can be according to the invention also a foam, in particular a closed pore foam, act. The vibrating ability of the Sensors also depends on this Material properties of the potting or Filling mass.

Further advantageous refinements and details of Invention can be found in the following description in which the invention with reference to that shown in the drawing Embodiment is described and explained in more detail.

In the figure, an inventive sensor 10 is shown in an exploded view. The sensor 10 is an ultrasonic sensor for a vehicle surroundings detection system and is mounted, for example, in the bumpers of a vehicle. The sensor 10 comprises two housing parts 12 and 14 made of plastic and sensor components 16 arranged inside the sensor 10 . The sensor components 16 comprise a cup-shaped ultrasound membrane 18 , which is connected via lines 20 to a printed circuit board 24 carrying electronic components 22 . Furthermore, a sleeve-like sealing or damping element 25 is provided between the membrane 18 and the housing part 12 in the assembled state.

To mount the sensor 10 , the sensor components 16 and the sealing element 25 are inserted into the housing parts 12 , 14 along a line 40 . Groove-like guiding and holding sections 26 are provided on the inside of the housing part 14 for the positionally accurate mounting of the printed circuit board 24 in the housing part 14 . The long sides 28 of the printed circuit board 24 can be inserted axially into these guide and holding sections 26 . At the housing part 14 facing end side of the printed circuit board provides 24 contacting portions 30 which cooperate tightly with thorough injected into the housing part 14 can not be seen, the housing part 14 connector strands. The housing member 14 by inter-connector strands 14 terminate in a connector portion 32nd

The membrane provides guide lugs 34 on its lateral surface for the precise mounting of the membrane 18 . The guide lugs 34 engage in guide and holding sections, which cannot be seen, and which are provided on the inside of the sealing element 25 or the housing part 12 . The housing part 12 is sealed on its front side 36 .

In a first assembly step, in which the individual parts of the sensor 10 are pushed one inside the other in the axial direction, the mutually facing end faces of the housing parts 12 and 14 abut one another flatly. The housing part 14 provides a ring section 38 which, in the assembled state, lies largely flat and in a form-fitting manner on the inside of the housing part 12 . This intercepts radially acting forces.

In a second assembly step, the areas of the housing parts 12 and 14 that abut one another or engage in one another are connected to one another in a moisture-tight manner. This can be done in particular by welding, for example laser welding, ultrasonic welding, friction welding, hot air welding or the like. And / or by material joining, such as gluing. Due to such a moisture-tight connection of the two housing parts, no moisture can penetrate into the sensor 10 from the outside.

In a next assembly step, the sensor interior enclosed by the housing parts 12 , 14 is completely filled with a filling or casting compound. For this purpose, it is conceivable that a probe penetrates the sensor 10 through one of the housing parts 12 or 14 and injects the corresponding mass into the sensor 10 . The filling or casting compound has a relatively high temperature and a high viscosity. This ensures that the sensor 10 or the sensor components 16 provided within the housing parts 12 and 14 are completely embedded by the filling or potting compound. It is achieved that the sensor components 16 are permanently fixed in a positionally secure manner and are protected against environmental influences. The components 16 are also preserved.

Another particular advantage of providing the filling or potting compound is that the sensor 10 has a uniform vibration behavior like an integral, uniform vibrating body. This has a positive effect on the radiation behavior of the sensor 10 . Depending on the materials used and the geometries envisaged, the oscillation ability of the sensor 10 can be influenced. Because the two housing parts 12 and 14 are joined tightly and firmly to one another by the joining, they also have a uniform vibration behavior. Relative movements between the two housing parts 12 and 14 cannot occur.

The sensor 10 consequently has the advantage that it is moisture-tight on the one hand. On the other hand, it has a uniform vibration behavior that has a positive effect on the radiation retention of the sensor.

All in the description, the following claims and the features shown in the drawing can both individually, as well as in any combination with each other be essential to the invention.

Claims (14)

1. Sensor ( 10 ), in particular ultrasound sensor of a vehicle surroundings detection system, with a housing composed of a plurality of housing parts ( 12 , 14 ) and with sensor components ( 16 ) accommodated within the housing, characterized in that the housing parts ( 12 , 14 ) are joined to one another in a moisture-tight manner , 2. Sensor ( 10 ) according to claim 1, characterized in that the sensor interior enclosed by the housing parts ( 12 , 14 ) is at least largely filled with a filling or potting compound. 3. Sensor ( 10 ) according to claim 1 or 2, characterized in that the housing parts ( 12 , 14 ) are welded together in the joined state, in particular laser-welded, ultrasonically welded, friction-welded, hot-air welded, or the like. are. 4. Sensor ( 10 ) according to claim 1, 2 or 3, characterized in that the housing parts ( 12 , 14 ) are integrally and optionally also positively connected. 5. Sensor ( 10 ) according to any one of the preceding claims, characterized in that only two housing parts ( 12 , 14 ) to be joined together are present. 6. Sensor ( 10 ) according to any one of the preceding claims, characterized in that at least two housing parts ( 12 , 14 ) in the area in which they are joined together have an at least largely circular and / or cylindrical cross section. 7. Sensor ( 10 ) according to any one of the preceding claims, characterized in that the housing parts ( 12 , 14 ) in the area in which they are joined together abut against one another and / or interdigitate with one another. 8. Sensor ( 10 ) according to any one of the preceding claims, characterized in that on the inside of the housing parts ( 12 , 14 ) guide and / or holding sections ( 26 ) for the sensor components ( 18 , 24 ) are provided. 9. Sensor ( 10 ) according to any one of the preceding claims, characterized in that the sensor components ( 16 ) comprise a cup-shaped membrane ( 18 ) and with the membrane ( 18 ) connected electronic components ( 22 ), which are preferably on a circuit board ( 24 ) are arranged. 10. Sensor ( 10 ) according to any one of the preceding claims, characterized in that at least one housing part ( 14 ), the housing part ( 14 ) has tightly penetrating connector strands which are connected to the electronic components ( 22 , 24 ). 11. A method for producing a sensor ( 10 ) according to any one of the preceding claims, characterized in that the housing parts ( 12 , 14 ) by welding, in particular by laser welding, ultrasonic welding, friction welding, hot air welding, or the like. be joined together. 12. A method for producing a sensor ( 10 ) according to any one of claims 1 to 10, characterized in that the housing parts ( 12 , 14 ) are integrally and optionally also positively connected. 13. The method according to claim 11 or 12, characterized in that the sensor components ( 16 ) and the housing parts ( 12 , 14 ) along a line ( 40 ) or from one direction can be assembled or joined together. 14. The method according to claim 11, 12 or 13, characterized in that after the joining of the housing parts ( 12 , 14 ) potting compound or filling compound is injected into the sensor ( 10 ).