DE102014107809B4 - Door handle with capacitive or inductive sensor - Google Patents

Abstract

Door handle (10), in particular outside door handle of a motor vehicle, with a sensor (24) which has a first metal surface (30) arranged inside the door handle (10) and a second metal surface (32) arranged at a distance therefrom, which is directed in the direction of the first Metal surface (30) is bendable, and comprises a detection device by means of which a change in capacitance or inductance caused by the change in the distance between the metal surfaces (30, 32) can be detected, characterized in that the detection device is designed to set a threshold value upon detection of a to initiate a first predefined or programmable action when a change in capacitance or inductance is exceeded and to initiate a second predefined or programmable action upon detection of a contact between the first metal surface (30) and the second metal surface (32).

Description

The invention relates to a door handle, in particular an outside door handle of a motor vehicle, with a sensor.

Such door handles are known in principle and are used, for example, in motor vehicles in order to enable the vehicle to be unlocked without a key. The sensors of these door handles are designed in the form of capacitive proximity switches, i.e. they measure the capacitance between an active electrode and the electrical ground potential. This form of capacitive sensor is not suitable for use in chrome-plated door handles, as the active electrode is electrically shielded by the chrome layer so that capacitance measurement is no longer possible.

From the WO 2014/200970 A1 and the WO 01/40607 A1 Outside door handle assemblies are known which each provide a capacitive sensor arranged within an outside door handle for detecting elastic deformation of the outside door handle when actuated by a user. Capacitive pressure sensors are in the US 2008/0202251 A1 and the EP 2 388 920 A1 disclosed.

The invention is based on the object of creating a door handle with a sensor which, even with a chrome-plated surface of the door handle, enables the detection of a touch of the door handle.

The object is achieved by a door handle according to claim 1 and in particular in that the sensor comprises a first metal surface arranged in the interior of the door handle and a second metal surface arranged at a distance therefrom, which can be bent in the direction of the first metal surface, and a detection device by means of which a change in capacitance or inductance caused by the change in the distance between the metal surfaces can be detected.

The invention is based on the general idea of not taking a capacitance measurement between the active electrode and the electrical ground potential, but instead detecting a change in capacitance between two metal surfaces that are spaced apart from one another. In other words, the problem of electrical shielding of the active electrode is solved by making a shielding second metal surface itself part of the sensor. As an alternative to the capacitance measurement, if the detection device is designed accordingly, an inductance measurement can also be carried out and a change in inductance caused by the approach of the metal surfaces can be detected. In both cases, the door handle according to the invention can also be used with a metallized surface, for example a chrome-plated surface, while maintaining its sensor functionality.

The distance between the first and second metal surface can be in the range of 50 µm to 150 µm and for example 100 µm, so that even a minimal bending of the second metal surface in the direction of the first metal surface caused by touching the door handle in the area of the sensor is less than 100 μm, for example, can lead to a significant change in capacitance, for example in the range from 0.1 to 1 pF. The space between the metal surfaces preferably has a dielectric, for the sake of simplicity a gas, such as air, and / or an elastically deformable solid, such as a plastic foam or the like.

If the detected change in capacitance or inductance exceeds a predetermined threshold value, a predefined or programmable action is triggered according to the invention, e.g. locking or unlocking a vehicle door. If the second metal surface is pressed in so far that it comes into contact with the first metal surface, a second predefined or programmable action is triggered, such as locking or unlocking all vehicle doors, switching the vehicle lights on / off, etc.

Advantageous embodiments of the invention can be found in the subclaims, the description and the drawing.

According to one embodiment, the second metal surface is formed by an outer skin of the door handle. For example, the outer skin can be formed from a metal sheet, which at the same time forms the second metal surface.

Alternatively, the second metal surface can also be applied to an outer skin of the door handle. For example, the outer skin can be formed from a plastic material to which the second metal surface is applied, for example in the form of a chrome coating.

The first metal surface is preferably arranged on a substantially non-deformable core of the door handle, “substantially non-deformable” in this context means that the core cannot be deformed by the forces that occur during normal use of the door handle. A change in the distance between the metal surfaces and the associated change in capacitance or inductance can therefore only be achieved by bending the second metal surface.

For a particularly simple connection and a particularly compact design of the sensor an, in particular flexible, printed circuit board is arranged between the first metal surface and the core of the door handle.

The first metal surface arranged on the essentially non-deformable core preferably forms a sensor electrode connected to the detection device. In other words, the connected active electrode is rigidly mounted, while the passive counter electrode is formed by the movable second metal surface. This has structural advantages because the circuit components are not exposed to any deformation during operation and therefore do not necessarily have to be flexible. In principle, however, it is conceivable to provide the active electrode on the flexible outer skin and the passive electrode on the rigid core.

According to a further advantageous embodiment, two laterally spaced spacers are arranged between the first metal surface and the second metal surface. These can be formed for example by adhesive films. The thickness of the spacers determines the gap width between the metal surfaces. At the same time, the spacers form counter bearings for the second metal surface, around which the second metal surface can bend if a force is exerted on the second metal surface between the spacers, i.e. if it is pressed in. A targeted weakening of the material of the outer skin in the area of the spacers can additionally facilitate the bending of the second metal surface.

According to yet another embodiment, a capacitive proximity switch is provided in addition to the sensor described above. For example, the sensor described above can be arranged on a side of the door handle facing away from the door, while the proximity switch is provided on the door handle on the door side. It goes without saying that for the proximity switch to function properly, it must be ensured that the active electrode of the proximity switch is not shielded by metal. To circumvent this problem of shielding, a second capacitive or inductive sensor of the type described above could of course also be used instead of the proximity switch.

• 1 zeigt schematisch den Aufbau eines erfindungsgemäßen Türgriffs.

The invention is described below purely by way of example using a possible embodiment with reference to the accompanying drawing.

• 1 shows schematically the structure of a door handle according to the invention.

The in 1 illustrated door handle 10 it is an outside door handle of a motor vehicle. The door handle 10 comprises a substantially non-deformable core comprising, for example, a plastic material 12 and an outer skin arranged at a distance from it 14th which is elastically deformable so that it moves towards the core 12 can be pressed in when operating the door handle 10 one by the arrow 16 represented force is exerted on them. The outer skin 14th is made of a plastic material 18th formed, which on the inside and outside with an electrically grounded metal coating, in the illustrated embodiment, a chrome coating 20th , is coated.

Between the core 12 and the outer skin 14th there is a capacitive sensor 24 , which has a sensor electrode 26th includes on a flexible printed circuit board 28 is arranged, which in turn is attached to the core 12 is applied. The sensor electrode 26th is connected to a detection device, not shown, for detecting a change in capacitance.

The sensor electrode 26th forms a first metal surface 30th of the sensor 24 , while the inner part of the chrome plating 20th a second metal surface 32 of the sensor 24 forms. The first metal surface 30th and the second metal surface 32 are in the area of the sensor 24 by two laterally spaced spacers 34 kept at a distance. The spacers 34 are each formed by an adhesive film strip and have a thickness of about 100 µm, so that the gap width between the metal surfaces 30th , 32 is about 100 µm. The gap 36 between the metal surfaces 30th , 32 is filled with air in the illustrated embodiment, but other dielectrics are conceivable.

Will the outer skin 14th when the door handle is touched 10 pressed in, the gap between the metal surfaces changes 30th , 32 and thus also the capacity of the sensor 24 . This change in capacitance is detected by the detection device already mentioned and, if a predetermined threshold value is exceeded, e.g. in the range from 0.1 to 1 pF, can trigger a predefined or programmable action, e.g. partial or complete locking or unlocking of the vehicle.

It goes without saying that the outer skin is already bent 14th less than the normal gap between the metal surfaces 30th , 32 , here 100 µm, a significant change in capacitance of the sensor 24 can cause by which a predefined or programmable action can be triggered. In addition, a second switching point can be defined for the case that the metal surfaces 30th , 32 get in contact. This second switching point can then trigger another predefined or programmable action.

Finally, it should be pointed out that the invention is based on a capacitive sensor 24 it was described that with a corresponding design of the detection device, however, a change in inductance could also be detected. In this case it would be the sensor 24 an inductive sensor, what about the functionality of the sensor 24 but would not change anything, ie the mode of operation described above would apply accordingly.

List of reference symbols

10

Door handle

12

core

14th

Outer skin

16

arrow

18th

Plastic material

20th

Chrome plating

24

sensor

26th

Sensor electrode

28

Track

30th

Metal surface

32

Metal surface

34

Spacers

36

gap

Claims (12)

Door handle (10), in particular outside door handle of a motor vehicle, with a sensor (24) which has a first metal surface (30) arranged inside the door handle (10) and a second metal surface (32) arranged at a distance therefrom, which is directed in the direction of the first Metal surface (30) is bendable and comprises a detection device by means of which a change in capacitance or inductance caused by the change in the distance between the metal surfaces (30, 32) can be detected, characterized in that the detection device is designed to set a threshold value upon detection of a to trigger a first predefined or programmable action when a change in capacitance or inductance is exceeded and to trigger a second predefined or programmable action upon detection of a contact between the first metal surface (30) and the second metal surface (32). Door handle (10) Claim 1 , characterized in that the second metal surface (32) is formed by an outer skin (14) of the door handle (10). Door handle (10) Claim 1 , characterized in that the second metal surface (32) is applied to an outer skin (14) of the door handle (10). Door handle (10) Claim 3 , characterized in that the second metal surface (32) is formed by a chrome coating (20) of the outer skin (14). Door handle (10) Claim 3 or 4th , characterized in that the outer skin (14) comprises a plastic material (18). Door handle (10) according to one of the preceding claims, characterized in that the first metal surface (30) is arranged on a substantially non-deformable core (12) of the door handle (10). Door handle (10) Claim 6 , characterized in that an, in particular flexible, printed circuit board (28) is arranged between the first metal surface (30) and the core (12) of the door handle (10). Door handle (10) according to one of the preceding claims, characterized in that the first metal surface (30) forms a sensor electrode (26) connected to the detection device. Door handle (10) according to one of the preceding claims, characterized in that two laterally spaced spacers (34) are arranged between the first metal surface (30) and the second metal surface (32). Door handle (10) Claim 9 , characterized in that the spacers (34) are each formed by an adhesive film. Door handle (10) according to one of the preceding claims, characterized in that the sensor (24) is arranged on a side of the door handle (10) facing away from the door. Door handle (10) according to one of the preceding claims, characterized in that in addition to the sensor (24) a proximity switch or a further capacitive or inductive sensor is provided, in particular on a side of the door handle (10) facing the door.

Images