Roof handle for a vehicle

A roof handle for a vehicle has two bearing elements which can be fixed to a roof of a vehicle and on which a handle body is mounted so as to be pivotable between a raised position and a lowered holding position. A line for the power supply is provided on at least one bearing element, which line, in a raised position of the handle body, is connected via contacts to an illuminating means on the handle body. Light can be irradiated via the illuminating means into an optical waveguide. This makes the handle body more visible in poor lighting conditions.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority under 35 USC 119 of German Application No. DE 10 2020 124 702.8, filed on Sep. 22, 2020, the disclosure of which is herein incorporated by reference.

BACKGROUND OF THE INVENTION

The present invention relates to a roof handle for a vehicle, having two bearing elements which can be fixed to a roof of a vehicle and on which a handle body is pivotably mounted between a raised position and a lowered holding position.

DE 296 04 260 U1 discloses a roof handle which has a swiveling grab handle which is pivotably held on two bearing blocks. The handle is moved into the raised starting position by means of a spring. Such roof handles have proven their worth as entry and exit aids. In poor lighting conditions, however, the vehicle occupant may not be able to see the position of the roof handle and must first feel for it.

DE 10 2009 020 333 A1 discloses a motor vehicle in which a light source is provided on a headliner, a fixed roof rail or a pillar trim. Such stationary lighting in the vehicle can, in particular, illuminate the surface of the vehicle door below and a lower threshold, so that better lighting conditions prevail when entering and exiting the vehicle. However, the directed downward emission of light may cause glare to the occupants of the vehicle. In addition, the handle bodies protruding into the vehicle compartment are disadvantageous.

SUMMARY OF THE INVENTION

It is therefore an object of the present invention to provide a roof handle for a vehicle which is convenient to use and easy to see even in low light conditions. In addition, the interior is to be visually upgraded.

This task is solved with a roof handle according to the invention, which can be fixed to a roof of a vehicle and on which a handle body is mounted such that it can be pivoted between a raised position and a lowered holding position. A line for the power supply is provided on at least one bearing element, which line, in a folded-up position of the handle body, is connected via contacts to an illuminating means on the handle body, via which illuminating means light can be irradiated into an optical waveguide.

In the roof handle according to the invention, a handle body is pivotably mounted between a folded-up position and a folded-down holding position and is thus convenient to use. In particular, the handle body does not protrude into the vehicle interior in the folded-up position. A line for supplying power is provided on at least one bearing element, which line, in a folded-up position of the handle body, is connected via contact elements to a lighting means on the handle body, via which light can be irradiated into an optical waveguide. As a result, the handle body can be at least partially illuminated via the illuminating means and the optical waveguide in low light conditions, which makes it easier for the vehicle occupants to detect the position of the handle body and then to grip it. In addition, the illumination of the optical waveguide results in a pleasant ambient lighting which does not dazzle the vehicle occupants but improves the illumination of the interior.

Preferably, the optical waveguide is arranged in a receptacle of the handle body. This allows the optical waveguide to fit into the contour of the handle body. The optical waveguide may be made of a transparent or translucent material. The illuminating means preferably shines light into an end face of the optical waveguide, which is then visible at the surface to the vehicle occupant, wherein the optical waveguide may also be arranged along the handle body in a curved or bent manner. Preferably, the optical waveguide extends along at least 50% of the length of the handle body.

For a reliable power supply, at least one sliding contact is provided on at least one bearing element, which sliding contact is in contact with a movable contact which is fixed to the handle body. Via the contacting of the movable conductive contact by the sliding contact, an electrical connection can be established in order to supply the illuminating means with current. The movable contact may thereby be arranged on a printed circuit board to which a lighting means, in particular an LED, is fixed. The printed circuit board may be inserted in a receptacle on the handle body, so that the position of the illuminating means is predetermined via the printed circuit board. This enables simple assembly with only a few components.

According to an alternative embodiment, a cable bushing is provided on the at least one bearing element and the line for the power supply is connected to a printed circuit board on the handle body via a contact element. Such a contact element may be in the form of a plug-in contact, a substance-to-substance contact or a clamping contact. This embodiment variant thus does not require a sliding contact and is advantageous for a continuous current supply to the illuminating means.

Preferably, the illuminating means can be switched off by folding down the handle body. Preferably, the switching is performed by interrupting the connection between the at least one sliding contact and the movable contact. Switching the illuminating means prevents the illuminating means from interfering when the handle is folded down. Optionally, by folding down the handle, a further contact element can be supplied with current in order to supply current to another illuminating means or to change the color of the illuminating means when the handle is folded down. This provides a visual indication of whether the handle is in the raised position or a lowered position. Alternatively, such switching of the illuminating means can be omitted. A continuous power supply is also possible.

In a further embodiment, the optical waveguide is circular in cross-section. The optical waveguide can be manufactured as a separate component and inserted into a receptacle of the handle body, for example by gluing or overmoulding. Optionally, the optical waveguide may also be integrally formed with the handle body. Preferably, the optical waveguide is arranged in a bow-shaped manner on the handle body and may extend along an edge of the handle body in order to be laid according to the contour of the handle body. The optical fiber may also extend flush with the surface of the inner surface of the handle facing away from the occupant. In this design, the light can also shine permanently indirectly without glare and illuminate specific functional areas, such as a coat hook or reading light switch.

The handle body may thereby have a groove-shaped receptacle into which the optical waveguide is inserted, preferably inserted substantially flush with the surface, so that a surface of the optical waveguide is arranged substantially flush with the surface of the handle body. The optical waveguide may thereby be made of a flexible plastic material.

DETAILED DESCRIPTION OF THE EMBODIMENTS

A roof handle1is mounted on a roof2of a vehicle, wherein the roof handle1has two bearing elements3which are fixed to the roof2. A bow-shaped handle body4is held on the two bearing elements3.

The handle body4is biased by a spring into a raised position as shown inFIG. 1. When gripped by the user, the handle body4can be pivoted, as shown inFIG. 2. For this purpose, the handle body4is rotatably mounted on the bearing elements3.

InFIG. 3, the roof handle1is shown without the roof. A bearing element3is shown spaced from the handle body4. Each bearing element3comprises a plug-in part30which can be inserted into the roof2and on which a latching means32, in particular a flexible spring bar, is provided, by means of which the bearing element3can be mounted without tools. The bearing element3can also be fixed to the roof2by other fixing means. The bearing element3further comprises a flange31abutting the surface of the roof2, from which a bearing block33projecting into the interior of the vehicle is arranged. An axis5is provided on the bearing block33, on which the handle body4is rotatably mounted. In the region of the bearing block33, at least in the case of one bearing element3, there are two sliding contacts14which are used for the electrical power supply.

The electrical sliding contacts14are connected via lines in the bearing element3to plug-in contacts13, to which sockets12can be plugged, which can be connected to lines11for the power supply. The plug-in part30thus serves not only to mechanically fix the bearing element3, but also to supply power, in particular in the low-voltage range.

The handle body4has a groove-shaped receptacle6on one surface, which is preferably arranged on an edge of the handle body4. An optical waveguide7is inserted into the groove-shaped receptacle6, which is adapted to the contour of the handle body4and is shaped like a bow. Light can be emitted into the optical waveguide7by an illuminating means10to illuminate it.

The illuminating means10, for example an LED, is mounted on a holder8to which a printed circuit board9is fixed.

InFIGS. 4A and 4B, the roof handle is shown in a raised position, with the holder8shown in an assembled position inFIG. 4A. The holder8has an end face flush with an end face of the handle body4.

As shown inFIG. 4B, the handle body has a recess16in the area of the bearing element3with the power supply, in which a receptacle17is provided. The printed circuit board9and the holder8may be inserted into the step-shaped receptacle17, with the illuminating means10arranged so that it is then disposed adjacent to an end face of the optical waveguide7.

The positioning of the optical waveguide on the illuminating means10is shown in detail inFIGS. 5A and 5B. The optical waveguide7positioned by the groove-shaped receptacle6is positioned with an end face on the illuminating means10so that the illuminating means10, for example as an LED, emits light into the optical waveguide7, which then emits light over the entire length.

The printed circuit board9has two contacts15on an upper side, which are movable together with the handle body4and the printed circuit board9. In the raised position, the contacts15are in contact with the sliding contacts14on the bearing block33of the bearing element3. For this purpose, the contacts15and the sliding contacts14can be in contact with each other with pretension.

FIG. 6shows the circuit board9with the two contacts15in detail. The printed circuit board9on the holder8is designed with the illuminating means10as a ready-to-mount unit which can be inserted into the receptacle17on the handle body4.

FIG. 7shows the holder8with the optical waveguide7, which is shaped like a bow and thus reproduces the contour of the handle body4, which is thus more visible.

InFIG. 8, the handle body4is shown in a slightly folded down position. It can be seen that by pivoting the handle body4about the axes5on the bearing elements3, the movable contacts15are pivoted relative to the bearing block33with the sliding contacts14. As a result, the contacts15move away from the sliding contacts14until the contact is broken, so that the illuminating means10are switched off by folding down the handle body4. When the user releases the handle body4again, a spring element raises the handle body4upwards so that the sliding contacts14contact the contacts15again and the illuminating means10is switched on again.

In the illustrated embodiment, only one illuminating means10is provided on the bearing element3for an optical waveguide7. It is of course also possible to provide two or more illuminating means which radiate light into one or more optical waveguides7. In addition, an illuminating means10can optionally also be provided on both bearing elements3.

In the illustrated embodiment example, the power supply of the illuminating means10is provided via sliding contacts14. It is also possible to use other contacts, for example plug-in contacts, materially connected contacts or clamping contacts. In that case, preferably only one cable bushing for the line11for the power supply is provided on the bearing element3.

LIST OF REFERENCE SIGNS