DE10242494A1 - Watch with a transponder unit, e.g. for use in paying for access to ski lifts, has an antenna coil and a watchcase of conducting metal with the case designed so that it does not, or only partially, covers the coil - Google Patents

Abstract

Watch (1) has a case (3) and a transponder unit with an antenna coil (6) within the case. The case has a first section (10) that is made from an electrically conducting material which does not or only partially covers the conductors of the antenna coil.

Description

The invention relates to a watch according to the preamble of claim 1.

Transponder watches are for example under the name “Ski Data Key Watch "or as "Swatch Rccess" on the market. Such Clocks are used, for example, as credentials and remote control means about opening of doors or as an electronic debit account for billing systems at Use of ski lifts, parking garages or the like. Here is for example a wristwatch equipped with a transponder, which with one of a reader emitted alternating electromagnetic field communicates. That from reader alternating field is also used for data exchange Power supply to the transponder. In general, the transponder exists from a flat and narrow toroid, at the end of the coil Transponder circuit is connected, which has an integrated memory and has modulator. The voltage induced in the antenna is supplied on the one hand the integrated circuit with energy and on the other side is through the retroactive effect the integrated circuit on the alternating magnetic field communication with the reader accomplished. The sensitivity of the antenna depends the law of induction on the surface from which are enclosed by the antenna designed as a ring coil and increases with the area. Therefore, the antenna coil encloses one if possible size Area, to increase the reading range. As a result, the transponder antenna is as close as possible to the Inner wall of the housing is arranged. Is the watch case made of an electrically conductive material and encloses the watch case the transponder antenna, so due to the induction voltage caused by the magnetic Alternating field is induced, an opposing field is generated, which that from the reader emitted field in the area of the transponder coil can greatly weaken. This results in the data flow between the transponder and reader disturbed. According to the state In technology, transponder watches are made with a housing electrically non-conductive material, such as B. plastic or ceramic, so that the above shielding effect described by the in conductive materials to avoid induced opposing field.

Another possibility is to move the antenna outside the watch case, in the case of a wristwatch, for example, into the bracelet. In the EP 0 439 724 B2 Such a solution for a magnetic long-wave antenna of a radio wrist watch is described. In addition to the fundamental disadvantage that the antenna integrated in the bracelet is very susceptible to wear due to wear and thus prone to malfunction, the requirement that the antenna coil should flow into as large an area as possible can only be met to a limited extent when the antenna is used in the watch band.

The DE 199 26 271 A1 describes a radio wristwatch with a metal middle part of the case. As a result, is already in the DE 199 26 271 A1 deals with the problem of the interaction of a radiated electromagnetic alternating field with a metal middle part of the housing. According to this document, resonance and quality detuning can occur if the antenna is arranged in the immediate vicinity of the metal middle part of the housing. To solve the problem, the DE 199 26 271 A1 propose to arrange an electrically non-conductive spacer ring between the magnetic long-wave antenna and the metal middle part of the housing, which makes up 20 to 30% of the inside diameter of the wristwatch. Because of the differing electromagnetic field distributions in radio-controlled clocks and in transponder clocks, the solution proposed in this publication cannot be directly transferred to the problem of equipping a transponder clock with a metal housing.

The invention is therefore the object based, a watch with a transponder unit with at least sections metal housing propose that over has an improved reception sensitivity and the antenna coil in the housing is arranged.

This task is done by a clock solved with the features of claim 1 according to the invention.

Advantageous embodiments and further developments the invention are specified in the subclaims.

The invention is generally based on a watch with a housing and a transponder unit. Here, the transponder unit has an antenna coil. Furthermore, the antenna coil is arranged inside the housing. Proceeding from this, the housing of the transponder watch has at least one first section made of an electrically conductive material. Furthermore, the first section is designed such that the enclosed area of each electrical conductor track closed in the first section or the entirety of several such enclosed areas does not, or only partially, cover the area enclosed by the antenna coil. The invention is therefore based on the idea that the antenna coil must not be completely enclosed by a closed electrical conductor track, since an induction current is generated in a closed electrical conductor track by an alternating magnetic field, which in turn generates a magnetic field which opposes the original magnetic alternating field is. As a result, the antenna coil, which is completely enclosed by the closed electrical conductor track, can be used in the electri magnetic conductor field induced magnetic path are shielded from the originally radiated alternating magnetic field. The features according to the invention accordingly prevent the formation of a magnetic field in a housing having at least a first section made of an electrically conductive material, which shields or strongly weakens the originally radiated magnetic field from the antenna coil.

For the principle of the invention is irrelevant as the electrical conductive first section of the housing is formed as long as an induction current is prevented, which causes that originally radiated magnetic alternating field in the area of the antenna coil shielded or heavily weakened becomes. According to a preferred embodiment, the housing has annular trained and closed in the circumferential direction middle part of the housing to accommodate at least the antenna coil. Furthermore, the middle part of the housing at least one made of an electrically conductive material first section, which in the circumferential direction by at least an electrically non-conductive second section is interrupted. In a housing middle part designed in this way, no in Circumferential current are induced, that of the current path enclosed area the area enclosed by the antenna coil is substantially covered. As a result, it becomes original radiated magnetic alternating field in the area of the antenna coil is not by the generated in the enclosed area of the current path magnetic field shielded or greatly weakened.

Is the clock of the invention portable watch, it makes sense to have at least one, to provide two holding devices on a wristwatch, on which a bracelet or holder strap can be attached.

According to a preferred embodiment is the first section made of at least one metallic material manufactured. The at least partial construction of the housing a metallic material is particularly, but not exclusively, at high-quality watches for design and / or functional reasons.

According to a further preferred embodiment is the at least one electrically non-conductive second section at least in sections from a non-conductive material, in particular plastic or ceramic.

Another embodiment is the provide the second section as an air gap.

For design reasons it makes sense, at least in the area of the at least one second section an adjusting element for setting the clock, in particular a printing device and / or to provide a crown. Since the second section is the first Interrupting section can be a design point of view disturbing Impression, which is concealed by the arrangement of an actuator becomes.

For a particularly preferred one embodiment is the entire middle part of the housing an annular one formed first section, which in the circumferential direction by a second section is interrupted. You can do that produce a transponder watch that has a central housing section, which almost completely is made of a metallic material and therefore the requirements corresponds in terms of design, functionality and stability, which, especially but not exclusively, on watches in the higher-value market segment be put.

According to a further preferred embodiment has the middle part of the housing at least one ring-shaped and closed third section in the circumferential direction from a electrically non-conductive material and at least a first Section on the third section at least in sections envelops. A housing middle part designed in this way shows a third section, which is closed in the circumferential direction is. The closed third section meets the requirements tightness and stability of the watch case Taken into account. The third section can in this embodiment for example as a ring Be formed core, which is enveloped by a first section, which is interrupted in the circumferential direction. Here, the first Section design requirements taken into account. A further embodiment consists of integrating the second and third sections Train unity.

According to another particularly preferred embodiment is the third section as a container for the movement trained and is only in the of a metallic material manufactured first section used.

According to a further preferred embodiment points the case at least one case bottom and / or at least one housing cover on at least sections of at least one non-conductive Material is made. This is particularly advantageous because there in a case bottom or housing cover from an electrically conductive material by a magnetic Alternating field currents can be induced. Close the induced currents the area the antenna coil, so the originally radiated magnetic Alternating field shielded by the opposing magnetic field or greatly weakened become.

For a particularly preferred one embodiment is the housing cover essentially designed as a watch glass.

According to a further preferred exemplary embodiment, the housing middle part and / or the housing base and / or the housing cover is made of an electrically conductive material which is wound helically and the windings are in electrically non-conductive contact with one another.

The invention is explained in more detail below of the embodiments shown in the figures. It demonstrate:

1 a first embodiment of the clock according to the invention in plan view and in side view.

2 a second embodiment of the clock according to the invention in plan view and in side view.

The 1a shows a first embodiment of the clock according to the invention 1 in top view. In the representation of the 1a is the middle part of the housing 2 of the housing 3 shown. The middle part of the housing 2 has an annular and closed in the circumferential direction and as a container 4 trained third section on (hatched). The present embodiment shows a wristwatch. This is done on two opposite sides of the container 4 one holding device each 12 molded to hold one of the two parts of a bracelet, of which the right holding device 12 is shown as an example (hatched). The holding devices 12 and the container 4 thus form an integral unit. The container 4 is made of an electrically non-conductive material, such as plastic or ceramic, and takes the clockwork (not shown) and the transponder unit, consisting of transponder circuit, in the present exemplary embodiment 5 and antenna coil 6 on. In the present embodiment, the container 4 on its top by a watch glass 7 trained housing cover and on its underside through a housing base 8th (in 1b shown) closed. Because also in a case back 8th or housing cover 7 , which is made of an electrically conductive active substance, can be induced by the radiated alternating magnetic field currents, which, if the area enclosed by them is the area of the antenna coil 6 completely covered, the magnetic field emitted by the reader in the area of the antenna coil 6 shield or weaken strongly, are the housing cover 7 and the case back 8th made of an electrically non-conductive material. In order to achieve the highest possible sensitivity of the transponder unit, the antenna coil is 6 as close as possible to the annular inner wall 9 of the container 4 arranged. In the present exemplary embodiment, the antenna coil runs 6 in a plane parallel to that through the watch glass 7 and the case back 8th defined levels. Like in the 1a recognizable is the ring-shaped container 4 of a one-piece and ring-shaped, first section made of a metallic material 10 envelops. The first paragraph 10 is in its circumferential direction by a second section which is designed as a slot and runs radially and over the entire height of the first section 11 interrupted. As a result, the second section 11 through an air gap 11 educated. Because of the air gap according to the invention 11 in the first part 10 it is ensured that in the first section made of a metallic material 10 no current can be induced, whose enclosed area is that of the antenna coil 6 enclosed area completely covered. Through the air gap 11 in the first part 10 it is rather ensured that the area enclosed by an induction current is rather only in the edge region of the antenna coil 6 runs, so much of that from the antenna coil 6 trapped area not or little of that in the first section 10 generated magnetic counterfield is enforced. As a result, it is ensured that the magnetic alternating field generated by a reading device is in a wide range within that by the antenna coil 6 fixed area undisturbed on the antenna coil 6 acts.

Furthermore, there are two projections arranged opposite one another on the ring-shaped first section 20 molded onto the container 4 molded holding devices 12 cover. In the drawing is the left projection 20 shown as an example.

The 1b shows the embodiment of the 1a in side view. The middle part of the housing 2 assigns a container 4 (drawn with hatching) on the first section made of a metallic material 10 is enveloped. The container 4 is ring-shaped and is on the top by a watch glass 7 and on the underside through a case back 8th completed. Furthermore, are on the outside of the container 4 Holding devices arranged opposite each other on both sides 12 molded (painted with hatching). The watch glass 7 and the case back 8th are made of an electrically non-conductive material. Furthermore, the ring-shaped container is closed in the circumferential direction. From the container 4 clockwork and the transponder unit are added. In the side view of the 1b you can see that through the slot in the first section 10 formed air gap 11 which is the first section 10 completely interrupts at this point in the circumferential direction by the air gap 11 the first section 10 interspersed along the entire height and in the radius direction over the entire width. In the present exemplary embodiment, the air gap is 11 Widened below in such a way that it connects through a connection on the outside of the first section 10 arranged pressure device or crown (not shown) to the inside of the container 4 clockwork located, can be produced by means of, for example, a rod-shaped connecting element.

The 2a shows a clock 13 according to a second embodiment of the invention. The middle part of the housing 14 the clock 13 is annular and consists of an annular first section 15 , which is made of a metallic material. The first paragraph 15 is circumferential through a second section 16 completely interrupted. In the present embodiment, the second section 16 made of an electrically non-conductive material, such as plastic or ceramic. On the first section 15 are on the outside of two oppositely arranged holding devices 21 provided for fastening a bracelet, the integral part of the first section in the present embodiment 15 are. Within the ring-shaped housing middle part 14 is the transponder unit, consisting of a transponder circuit 5 and antenna coil 6 arranged, the antenna coil 6 close along the inner wall 19 of the middle part of the housing 14 runs. The middle part of the housing 14 is on its top by a watch glass 17 trained housing cover and on its underside through a housing base 18 , which is made of an electrically non-conductive material, completed (in 2 B shown). Because the first section 15 of the housing middle part is interrupted, the housing middle part 14 through the second section 16 completed. Through at least one opening in the second section 16 and / or through an opening in the first section 15 , which is close to the second section 16 is located, a connecting element or several connecting elements (not shown) can be guided, which the clockwork with one on the outside of the middle part of the housing 14 and in the area of the second section 16 connect the arranged pressure device or crown.

The 2 B shows the in the 2a described embodiment in side view. You can see the clock 13 with the middle part of the housing 14 , which has an annular first section 15 made of a metallic material. The first paragraph 15 is circumferential through a second section 16 interrupted from an electrically non-conductive material, such as plastic or ceramic. The middle part of the housing 14 is on its top through a watch glass 17 and on its underside through a case back 18 , which is also made of an electrically non-conductive material, completed. In the area of the inner wall 19 of the middle part of the housing 14 are exemplary 3 wires on each side of the antenna coil 6 shown.

1

Clock

2

Housing body

3

casing

4

Container

5

Transponder circuit

6

antenna coil

7

watch glass

8th

caseback

9

inner wall (Container)

10

1. section

11

air gap

12

holder to containers

13

Clock

14

Housing body

15

1. section

16

Second section

17

watch glass

18

caseback

19

inner wall (Middle part)

20

head Start (1st section)

21

holder at 1st section

22

casing

Claims (14)

Clock ( 1 . 13 ) with a housing ( 3 . 22 ) and a transponder unit, the transponder unit being an antenna coil ( 6 ), and wherein at least the antenna coil ( 6 ) inside the housing ( 3 . 22 ) is arranged, characterized in that the housing ( 3 . 22 ) at least a first section ( 10 . 15 ) which is made of an electrically conductive material, the first section ( 10 . 15 ) is designed such that the enclosed area of each in the first section ( 10 . 15 ) possible closed electrical conductor track or the entirety of several such enclosed areas that are separated from the antenna coil ( 6 ) enclosed area not or only partially covered. Clock according to claim 1, characterized in that the housing ( 3 . 22 ) a ring-shaped housing middle part which is closed in the circumferential direction ( 2 . 14 ) to accommodate at least the antenna coil ( 6 ), the middle part of the housing ( 2 . 14 ) at least a first section ( 10 . 15 ) which in the circumferential direction by at least one electrically non-conductive second section ( 11 . 16 ) is interrupted. Clock according to claim 2, characterized in that on the middle part of the housing ( 2 . 14 ) at least one holding device ( 12 . 21 ) is provided for fastening at least one tether. Clock according to one of claims 1 to 3, characterized in that the at least one first te section ( 10 . 15 ) is made of at least one metallic material. Clock according to one of claims 1 to 4, characterized in that the at least one second section ( 16 ) is made of plastic or ceramic. Clock according to one of claims 1 to 4, characterized in that the second section is an air gap ( 11 ) is. Clock according to one of claims 1 to 5, characterized in that in the region of the at least one second section ( 11 . 16 ) at least one control element for setting the clock, in particular a pressure device and / or a crown, is provided. Clock according to one of claims 1 to 5 and 7, characterized in that the central housing part ( 14 ) through a first annular section ( 15 ) which is formed in the circumferential direction by a second section ( 16 ) is interrupted. Clock according to one of claims 1 to 7, characterized in that the central housing part ( 2 ) at least one annular third section closed in the circumferential direction ( 4 ) made of an electrically non-conductive material which is separated from the at least one first section ( 10 ) is covered at least in sections. Clock according to claim 9, characterized in that the at least one second section ( 16 ) integral part of the at least one third section ( 4 ) is. Clock according to claim 8 or 9, characterized in that the third section as a container ( 4 ) is designed to accommodate the clockwork. Clock according to one of claims 1 to 11, characterized in that the housing ( 3 . 22 ) at least one case bottom ( 8th . 18 ) and / or at least one housing cover ( 7 . 17 ), which is made at least in sections from at least one non-conductive material, the housing base ( 8th . 18 ) the bottom / the housing cover ( 7 . 17 ) the top of the middle part of the housing ( 2 . 14 ) completes. Clock according to claim 12, characterized in that the housing cover essentially as a watch glass ( 7 . 17 ) is trained. Clock according to claim 12 or 13, characterized in that the middle part of the case and / or the housing base and / or the housing cover is made of a conductive material, which is wound helically and the windings of which are electrically insulated from one another.