DE10246943A1 - Method of manufacture of motor vehicle door handle antenna involves using permeability of core to determine winding values - Google Patents

Abstract

The method of manufacture of an antenna in a motor vehicle door handle uses a coil formed by winding around a longitudinal core (3) of magnetic material. The permeability data of the coil core (3) is determined to produce values for the winding (4). The winding is then placed on the coil in a fixed position. The winding start (21), end (22) and number are defined. An Independent claim is included for a built-in antenna manufactured by the above method.

Description

The invention relates to a method for the production of a built-in antenna e.g. for a door handle of a vehicle, according to the preamble of claim 1 and a built-in antenna according to the preamble of the claim 5th

Built-in antennas that act as transmit and / or receive antennas for radio-based, keyless entry systems serve to motor vehicles, for example, in the door handle or built into the interior of the vehicle. Especially for the built-in antennas for door handles high accuracy of the transmission and reception frequency e.g. required by 2%.

The transmission and reception frequency of a built-in antenna is due to permeability determined their coil. The coil has an elongated magnetic core Material is arranged around the windings of the coil. Known coil cores are made by sintering ferrite powder. The material and the manufacturing process of the ferrite cores leads to large fluctuations to fluctuations up to 20% in the electromagnetic properties the coil.

To achieve a transmission and reception frequency a built-in antenna with the desired accuracy Various measures are known to the applicant. In one example A built-in antenna has the windings of the coil on one on the Ferrite core movable coil body attached. In the preparation of a built-in antenna, the coil body is moved on the ferrite core, until the permeability the desired one permeability as far as possible corresponds, and fixed. In another example of a built-in antenna the coil has a support in which, in addition to the winding core with the windings, an additional Ferrite core displaceable in the direction of the coil core is arranged. This additional one too After setting its optimal position with the ferrite core to the one you want permeability approximated Permeability of the Fix coil. These measures require additional elements like a bobbin or a carrier and an additional one Ferrite core, and an additional Manufacturing step, the displacement and locking of the bobbin or of the additional Ferruitkerns. The permeability the coil can be even with these measures not always with the one you want Set accuracy.

The object of the invention is a Method of making a built-in antenna, e.g. for a door handle one Vehicle, according to the preamble of Claim 1 and a built-in antenna according to the preamble of the claim 5 to develop, the desired one Accuracy of the transmit and receive frequency of the built-in antenna with simple Funds can be achieved.

The task is characterized by the Features of the claims 1 and 5 solved. In the features of the subclaims are advantageous embodiments specified.

According to the invention, a Built-in antenna first the permeability of a coil core for determines the coil of the built-in antenna. This determination of the permeability takes place e.g. by measuring the finished coil core individually for each coil core. Subsequently turn the determined permeability into winding data for it Coil core determined. For this, e.g. the desired permeability of the coil specified (target permeability) and from the determined permeability of the coil core the necessary Winding data calculated. Finally the windings according to the specific winding data for the coil core on this attached immovably. The windings are e.g. on arranged and fixed the coil core. This individual vote of the windings on the individual coil core enables the production of a Coil whose permeability a predetermined permeability corresponds with high accuracy. The production is done with simple Average with a permeability determination and with one Determination of winding data. Complex compensation from deviations occurring in the known manufacturing processes the permeability of a wound core from a target permeability Additional elements and an additional Manufacturing step is not necessary.

According to claim 2, the winding data Start and end of winding, i.e. the digits of the first and last winding, and the number of turns determined. Depending on the selected calculation algorithm to do this, all of the three sizes are selected the determined permeability derived or specified one or two of the three sizes and the remaining two or derived the third size. For example, the start of the winding can be fixed and can End of winding and the number of turns are calculated.

The winding data can be according to claim 3 can be determined in a computer unit in which e.g. one or several calculation algorithms are stored.

A safe and accurate method of Determination of the permeability of the coil core is measured by a measuring device a measuring coil according to claim 4. Alternatively, you could a magnetoscope as a measuring device for determining the permeability of the coil core be used.

The measured in the measuring device permeability can be supplied to the computer unit and in the computer unit determined winding data are fed to an automatic winding machine, in which the windings are attached to the coil core.

A built-in antenna according to claim 5 can be produced by a method according to one of claims 1 to 4 and a built-in antenna according to claim 6 by a method according to one of claims 2 to 4.

With a built-in antenna according to claim 5 the winding data of the windings are specific to the respective Coil core matched. The windings are directly on the coil core attached immovably. The coil is free of additional, movable Coil cores. It is also free of additional elements such as a coil former and a carrier. It has fewer parts than the known coils and is therefore better in a door handle accommodate. Your permeability corresponds to a given permeability with high accuracy. Built-in antennas according to the invention can as transmit and receive antennas e.g. at frequencies from 20 to 150 kHz are used. Their inductance can be 50 to 3000 μH.

The invention is further explained on the basis of an example of a built-in antenna for a door handle shown schematically in the drawing. They show 1 and 2 Cuts AA and BB in the longitudinal extension of the door handle, the cut AA of the 1 approximately vertical and the section BB of the 2 extend approximately parallel to an outer surface of the door handle. The exact course of cuts AA and BB of the two 1 and 2 is shown in the other figure. In 3 the principle of a method according to the invention for producing a built-in antenna is shown.

A built-in antenna according to the invention for a door handle of a vehicle has a two-part housing, namely an outer handle part 1 and an inside handle 2 , a coil with a coil core designed as a ferrite core 3 and windings 4 , a capacitor 5 and a plug 6 on.

The handle outer part 1 is as an elongated, approximately cuboid hollow body open on a rear side with an outer surface pointing away from a body in the installed state 7 , an opposite inner surface facing the body 8th , Side surfaces 9 . 10 , a front end surface 11 and a cavity 12 formed, the cross section of the handle outer part 1 at least in its central section and the cross section of the cavity 12 are roughly rectangular. The outside surface 7 and the inner surface 8th in the middle section of the outer handle 1 have a slightly outward curve in the longitudinal direction. An edge between the inner surface 8th and end face 11 is an extension that extends across the entire width 13 educated. The inner surface 8th points near the extension 13 a second, extending over the entire width 14 and on their end face 11 opposite end, ie at the open end of the handle outer part 1 , a third, extending over the entire width 15 on. In the drawing, the longitudinal extent of the outer handle part 1 roughly horizontal and is the open side of the handle outer part 1 on his left.

The inner handle part 2 is in its rear section as a hinge 16 and in its adjoining front section as one in the cavity 12 of the outer handle 1 arranged carrier 17 for the coil core 3 with the windings 4 educated. The cuboid, to the dimensions of the cavity 12 customized straps 17 extends essentially over the entire cavity 12 and is guided in this. In its central section, the carrier points 17 an opening 18 for the coil core 3 on, being at the front end and at the rear end of the opening 18 in the carrier 17 one level each 19 . 20 is formed on which the coil core 3 rests.

On the cuboid coil core 3 are the windings 4 attached immovably, the beginning of the winding 21 fixed and the winding end 22 and the number of turns on the permeability of the specific coil core 3 are coordinated. In this example, the windings are 4 arranged in one layer.

The coil from coil core 3 and windings 4 and the capacitor 5 are connected in series and to the connector 6 connected. There is also a lead frame 23 provided on which the windings 4 over lines 24 . 25 and contacts 26 . 27 and the capacitor 5 about contacts 28 . 29 connected. The rear end of the lead frame 23 forms pins 30 . 31 of the connector 6 ,

A built-in antenna according to the invention is used, for example, in a system with a measuring device 32 with a measuring coil 33 , one with the measuring device 32 over a line 34 connected computing unit 35 , for example a production control computer, and one with the computer unit 35 over a line 36 connected winding machines 37 manufactured. During production, the measuring device is first used 32 the permeability of the coil core 3 measured, then the winding data are determined and finally in the winding machine 37 the windings 4 on the coil core 3 fixedly attached according to the specific winding data. From the winding data winding start 21 , Winding end 22 and number of turns becomes the beginning of the winding 21 fixed and the winding end 22 and the number of turns from the measured permeability of the coil core 3 via one in the computer unit 35 stored computing algorithm determined.

Alternatively, the permeability of the coil core 3 be measured by means of a magnetoscope, in which the permeability is determined by measuring harmonics generated with so-called FORSTER probes.

1

Handle outer part

2

Handle inner part

3

Plunger

4

windings

5

capacitor

6

plug

7

outer surface

8th

Inner surface

9

side surface

10

side surface

11

end face

12

cavity

13

extension

14

extension

15

extension

16

hinge

17

carrier

18

opening

19

step

20

step

21

winding start

22

winding end

23

lead frame

24

management

25

management

26

Contact

27

Contact

28

Contact

29

Contact

30

Pin code

31

Pin code

32

measuring device

33

measuring coil

34

management

35

computer unit

36

management

37

winding machine

Claims (6)

Method for producing a built-in antenna, for example for a door handle of a vehicle, in which a coil is produced from magnetic material by arranging windings around an elongated coil core, characterized in that the permeability of the coil core ( 3 ) is determined, from the determined permeability winding data for the coil are determined and the windings ( 4 ) the coil according to the determined winding data on the coil core ( 3 ) cannot be moved. A method according to claim 1, characterized in that the winding data winding start ( 21 ), Winding end ( 22 ) and number of turns can be determined. A method according to claim 1 or 2, characterized in that the winding data by a computer unit ( 35 ) can be determined. Method according to one of claims 1 to 3, characterized in that the permeability of the coil core by a measuring device ( 32 ) with a measuring coil ( 33 ) is determined. Installation antenna, for example for a door handle of a vehicle, with a coil, with an elongated coil core made of magnetic material, arranged around the windings of the coil, characterized in that winding data of the windings ( 4 ) on a permeability of the coil core ( 3 ) and the windings ( 4 ) immovable on the spool core ( 3 ) are attached. Built-in antenna according to claim 5, characterized in that the winding data winding start ( 21 ), Winding end ( 22 ) and the number of turns on the permeability of the coil core ( 3 ) are coordinated.