DE102005035814A1 - Manufacture of radome for radar system of vehicle using dielectric lens - Google Patents

Abstract

The manufacture of a radome (1) involves applying a dielectric lens (2) in a material connection to a boundary surface (10) of the radom. The lens is preferably at least partly adhered or soldered to the radome surface. Independent claims also cover a radom manufactured according to the above process.

Description

The The present invention relates to a process for producing a Radoms, suitable for a radar system of a motor vehicle. Furthermore, the present invention relates Invention a radome for a radar system of a motor vehicle is suitable.

radar systems for motor vehicles and corresponding radomes for Such radar systems are suitable, are from the prior art in different embodiments already known. The known radar systems are used in motor vehicles for Example with an automatic regulation of the vehicle speed for one Detection of preceding vehicles used.

The Radom, which is inserted into the beam path of the radar system, in particular, serves the others Components of the radar system such as its transmitter and receiver means from the weather, rockfalls or the like.

From the DE 198 19 709 C2 For example, a method for producing a radome for a distance warning radar of a motor vehicle is known. The radome makes it possible to install the radar system invisibly behind a vehicle emblem of the motor vehicle.

The German patent application DE 102 35 337 A1 shows a covering device for a motor vehicle radar, wherein the covering device is variable in shape and / or in position. The covering device may be, for example, a radome.

The German patent application DE 199 63 003 A1 discloses a motor vehicle radar system with at least one sensor radiation-transmissive body for focusing the sensor radiation and / or at least one radome without intentional focusing in the beam path, wherein in the sensor radiation-transmissive body and / or in the radome at least one arrangement of electrical conductor tracks is inserted, the arrangement of consists of a ferromagnetic material. The electrical tracks allow shielding of electrical and magnetic fields.

The Previously known prior art radomes have the disadvantage that they are for a bundling the radar beams during the operation of the radar system are not suitable. Optical means for focusing the radar beams are either in a housing of the Radar integrated or they are between the radome and the Transmitter and receiver means arranged. This results in an increased space requirement for the radar system in the motor vehicle.

Here uses the present invention.

ADVANTAGES OF INVENTION

Of the The present invention is based on the object, a cost-effective Method for producing a radome for a radar system of a motor vehicle and to propose a radome, the radome being suitable for bundling the radar beams, so that the space needed for the entire radar system in the motor vehicle can be reduced.

Regarding of the method is the basis of the present invention Task by a method having the features of claim 1 and with respect to the radome by a radome having the features of the claim 5 solved.

According to the invention, it is proposed a dielectric lens is adhesively bonded to a first interface of the Radoms is attached. This allows the radome and the dielectric Lens as a separate, independent be manufactured from each other components that only during the Assembly process are interconnected. This way you can be achieved that the radome produced in a relatively compact design can be and thus also suitable for radar systems, at which only a relatively limited space for the reception of broadcast and receiver means of the radar system as well as for the radome itself is available. The cohesive Connection provides a reliable and securely attaching the dielectric lens to the radome. Immediate shaping of the dielectric lens at the radome itself, especially for a very compact designed radome manufacturing technology Causes problems, can with the method according to the invention be avoided.

In a preferred embodiment the dielectric lens is at least partially with the first interface glued to the radome. It has been shown that an adhesive bond between the dielectric lens and the first interface of the Radoms does not negatively affect the function of the radar system.

According to an alternative embodiment, it is proposed that the dielectric lens be welded at least in sections to the first boundary surface of the radome. It has shown, that also a welded joint between the dielectric lens and the first interface of the radome does not adversely affect the function of the radar system.

The weld together For example, the dielectric lens having the first interface of the radome may be by laser welding, by ultrasonic welding or by friction welding respectively. It can in principle also other welding methods for the production of cohesive Connecting the dielectric lens to the first interface of the Radoms are used.

According to claim 5, it is proposed that the radome comprise a dielectric lens which by means of a cohesive Connection, in particular by means of an adhesive connection or a welded connection, at a first interface the radome is attached.

It it can be provided that the dielectric lens at least two having dielectric lens means which are substantially cylindrical are formed. These dielectric lensing agents allow an efficient bundling the radar beams during the operation of the radar system.

It it is possible, that the dielectric lens means by a number of connecting webs connected to each other. For example, the dielectric Lens in the region of the connecting webs cohesively with the first interface of the Radoms are connected.

Around the mounting of the dielectric lens at the first interface of the To simplify radomes may be provided in a preferred embodiment be that the first interface has at least one positioning aid. There is a possibility that the dielectric lens after assembly at least partially essentially flush concludes with the at least one positioning aid.

In a particularly advantageous embodiment is proposed that the radome and the dielectric lens are made of a material which for Radar radiation with a frequency of about 24 gigahertz a small damping having. Thus, the radome can also be used in radar systems be using electromagnetic radiation with a frequency to work from 24 gigahertz.

It can be provided that the dielectric lens in a section the interface is arranged, after the assembly of the radome in a beam path of the radar system to the receiver means associated with the radar system. Thus, during operation of the radar system with the help of the dielectric lens, that is not that of the transmitter means the radar system emitted electromagnetic radiation but exclusively the on the receiver means bundled with appropriate radiation. This embodiment is particularly advantageous in a 24 gigahertz radar system. Due to the spatial wider emission or reception range of about 40 ° at a 24 GHz radar system versus about 12 ° for conventional 77 GHz radar systems it is advantageous only the radar radiation impinging on the receiver means bundle with the help of the dielectric lens. Otherwise, the Receiver means during the Operation of the radar system to detect too many laterally incident interfering signals, the under circumstances may affect the function of the radar system.

It It should be noted at this point that the Radom shown here in principle also in conventional Radar systems can be used with electromagnetic Radiation with a frequency of 77 gigahertz work. But then you have to the materials that make up the radome and the dielectric lens are made in this frequency range, a correspondingly low damping exhibit.

DRAWINGS

Two preferred embodiments The present invention is illustrated in the accompanying drawings. Show in it

1 a perspective view of a radome according to a first embodiment of the present invention during the mounting of a dielectric lens;

2 a perspective view of a radome according to a second embodiment of the present invention.

DESCRIPTION THE EMBODIMENTS

First, it will open 1 Reference is made, in a first embodiment of a radome according to the invention 1 with a dielectric lens 2 during assembly is shown.

The radome 1 will after mounting the dielectric lens 2 used in a conventional manner in the front of a motor vehicle in the beam path of a conventional radar system. The radome 1 the other components of the radar system, in particular its transmitter and receiver means, protect from the weather, rockfall or the like. To reflection losses, for example, at a first interface 10 the radome 1 can occur, as well as reducing absorption losses, is both the thickness of the radome 1 as well as the type of materials used for making the radome 1 and the dielectric lens 2 are used, tuned to the radar system used by the specific frequency of the radar. So the radome 1 For example, for a radar system that uses radar radiation at a frequency of 24 gigahertz, the radome 1 in particular be made of a material that has only a relatively low attenuation for the radar radiation with a frequency of about 24 gigahertz. The same applies to the dielectric lens 2 ,

One recognizes in 1 furthermore, the dielectric lens 2 which, when mounted on a geometrically limited area of the first interface 10 the radome 1 is put on. The dielectric lens 2 is made in one piece in this embodiment and comprises two dielectric lens means 20 . 21 which are made substantially cylindrical, wherein the longitudinal axes of the two dielectric lens means 20 . 21 are oriented substantially parallel to each other. The dielectric lens means 20 . 21 There are three connecting bridges 22 connected with each other. It can also be provided that the dielectric lens means 20 . 21 directly adjacent to each other or, for example, only by two connecting webs 22 connected to each other.

To a material connection of the dielectric lens 2 with the first interface 10 the radome 1 make, becomes an adhesive 3 used, in this embodiment, flat on a portion of the first interface 10 the radome 1 is applied. Subsequently, the dielectric lens 2 on the with the adhesive 3 provided portion of the first interface 10 the radome 1 placed and optionally pressed to make the adhesive bond. To attach the dielectric lens 2 To simplify, has the first interface 10 the radome 1 in this embodiment, a positioning aid 4 on.

As in 1 to recognize is the dielectric lens 2 only in a geometrically limited section of the first interface 10 the radome 1 appropriate. The dielectric lens 2 bundles after the introduction of the radome 1 in the beam path of the radar system only on the radome 1 meeting, reflected radar beams in the reception area of the receiver means and not radar radiation emitted by the transmitter means. This reduces the influence of laterally occurring interference signals received by receiver means of the radar system.

In 2 is a perspective view of a radome 1 illustrated and constructed according to a second embodiment of the present invention. The basic structure, the way of making the radome 1 and the dielectric lens used materials as well as the principle of operation of the radome 1 are identical to the first embodiment. In the following, therefore, only the essential differences from the first embodiment will be discussed.

One recognizes in 2 turn the radome 1 as well as the dielectric lens 2 in turn, a first dielectric lens means 20 and a second dielectric lens means 21 includes, which are also designed in this embodiment, substantially cylindrical and whose longitudinal axes are oriented substantially parallel to each other. The two dielectric lens means 20 . 21 are in this embodiment in each case by four connecting webs 22 connected with each other. It can also be seen at the lateral boundaries of each of the two dielectric lens means 20 . 21 four moldings each 23 , which in turn are perpendicular to the longitudinal axes of the two dielectric lens means 20 . 21 extend to the outside.

In this embodiment, the cohesive connection between the dielectric lens 2 and the first interface 10 the radome 1 manufactured by using the dielectric lens 2 in sections on the first interface 10 the radome 1 is welded. This welds between the connecting webs 22 and the first interface 10 the radome 1 as well as between the lateral formations 23 and the first interface 10 the radome 1 made to produce in this way the cohesive connection. But there is also the possibility that, for example, only the moldings 23 with the first interface 10 the radome 1 be welded. The welded joints can be produced for example by laser welding, ultrasonic welding or by friction welding.

The present invention has the advantage that the radome 1 and the dielectric lens 2 are designed as separate components that can be manufactured independently of each other before they are finally materially connected together. Both gluing and welding provide low-tolerance connections between the radome 1 and the lens 2 to disposal. In addition, tests have shown that these cohesive connection types have no negative impact on the operation of the radar system. With Help of the present invention can be a very compact radome 1 which is particularly suitable for applications where the for a mounting of the radome 1 and / or the remaining components of the radar system available space is relatively low.

Claims (10)

Method for producing a radome ( 1 ), suitable for a radar system of a motor vehicle, characterized in that a dielectric lens ( 2 ) cohesively at a first interface ( 10 ) of the radome ( 1 ) is attached. Method according to claim 1, characterized in that the dielectric lens ( 2 ) at least in sections with the first interface ( 10 ) of the radome ( 1 ) is glued. Method according to claim 1, characterized in that the dielectric lens ( 2 ) at least in sections with the first interface ( 10 ) of the radome ( 1 ) is welded. Method according to claim 3, characterized in that the welding of the dielectric lens ( 2 ) with the first interface ( 10 ) of the radome ( 1 ) by laser welding, ultrasonic welding or friction welding. Radome ( 1 ), suitable for a radar system of a motor vehicle, characterized in that the radome ( 1 ) a dielectric lens ( 2 ), which by means of a material connection, in particular by means of an adhesive bond or by means of a welded joint, at a first interface ( 10 ) of the radome ( 1 ) is attached. Radome ( 1 ) according to claim 5, characterized in that the radome ( 1 ) at least two dielectric lens means ( 20 . 21 ), which are formed substantially cylindrical. Radome ( 1 ) according to claim 6, characterized in that the dielectric lens means ( 20 . 21 ) by a number of connecting webs ( 22 ) are interconnected. Radome ( 1 ) according to one of claims 5 to 7, characterized in that the first interface ( 10 ) at least one positioning aid ( 4 ) having. Radome ( 1 ) according to one of claims 5 to 8, characterized in that the radome ( 1 ) and the dielectric lens ( 2 ) are made of a material which has a low attenuation for radar radiation in the range of about 24 gigahertz. Radome ( 1 ) according to one of claims 5 to 9, characterized in that the dielectric lens ( 2 ) in a portion of the first interface ( 10 ) arranged after the assembly of the radome ( 1 ) is associated with the receiver means of the radar system in a beam path of the radar system.