DE10053842A1 - Transmitter element with display device - Google Patents

Abstract

The aim of the invention is to produce an easily readable display device (5) for a transmitter element (1). To this end, one corner on the housing (3) of a transmitter element (1) is configured in the form of a display device (5). Parts of the direct light in a first beam direction (23) of an LED are deviated in different directions by means of two integrated reflectors (11) which are located beneath the outer wall (9) of the body (7) that is shaped in the form of a housing corner.

Description

The invention relates to a donor element with a Ge housing and a display device

Such a transmitter element is generally used for the signal generation for an electrical control, which in turn is part a machine or system. The signal generation in Ge berelement can be based on various principles, such as: B. on an inductive or capacitive detection principle, then the transmitter element as an inductive or capacitive Proximity switch is formed.

With both switch types, a sensor provides a switching switch failed, which is then implemented by the encoder element and, for example is passed on to the controller.

The switching command converted into a switching state can be done by a display device can be made visually recognizable. Analogously, a further display device for the visual len represent an operating state.

To the switching and / or operating state of the encoder element can display various display devices for Come into play. A display device is to be understood among other things a device through which an optical signal to recognize the switching and / or operating status as In formation or message is issued.

From the published patent application DE 41 35 266 A1 there is an advertisement device known for vehicles. This display device has a housing in which a light source and a this light source associated reflector are arranged.  

In the above-mentioned publication is in the drawing on page 1 in a cross-section from above an advertisement Device for vehicles shown. The FIG has a Ge housing, which is formed with a boundary wall, in which a light source is mounted in a lamp holder, which here as a flashing light for a direction indicator on Vehicle is trained. In addition, the cross section of the Signal light another boundary wall visible, the egg forms a reflector for the light source. The open pages of the housing are against the outside of the vehicle with a translucent cover plate towards a vehicle covered on the side and on the front of the vehicle.

The reflector is in the vehicle's longitudinal direction and from the driving seen from the tool side behind the flashing light, see above that by its orientation as a reflector for the blink light works. The reflector can hit the light beam len from the turn signal towards the front of the vehicle.

The US patent is a further prior art 5,642,933. This is a type of egg ner light source for display devices, which a lot number of light emitting diodes and light reflection elements. A light reflection member reflects light from the LEDs emitted in different colors and as The status of Maschi is therefore configured as signal light to indicate danger and the like.

Furthermore, conventional devices are used in practice level detectors - in general also display devices called - known. These are usually more conventional LEDs are designed and are in the respective device housing arranged so that the lenses of the light emitting diodes are either flat dig are embedded in the housing or through the housing wall protrude. With these device status detectors Switching and / or operating states of the corresponding devices be visually displayed.  

For a general and / or correct signal evaluation of the Switching and / or operating states of encoder elements ahead men, it is necessary, especially for the Ar working with encoder elements under commissioning, operating, Maintenance and repair conditions, the recognizability to improve the display devices.

The invention is therefore based on the object, a Geberele ment with a display device in which a better detection of the switching and / or operating states should be aimed.

This object is achieved by the features of the An spell 1 solved.

Thereafter, it is provided that the donor element with a housing and a display device

• - A light source, which is essentially a first emission direction for light emitted by the light source, wherein the light source comprises a light emitting diode, and
• - Reflectors used to redirect part of the direct Light the light source into a second and a third serve beam direction, the first, second and third Direction of radiation are directed differently,

is trained.

This is a targeted redirection, similar to the structure Cartesian coordinate system. The use of egg ner light emitting diode, preferably an SMD light emitting diode (SMD = Surface Mounted Device), has the advantage of being different for incandescent lamps, a lower proportion of stray light and therefore however, essentially direct light is emitted. The Incandescent lamp scatters - due to its design features - the light evenly on all sides. Under 'directed'  the direction, but not the quality, of the radiated light understood.

Parts of the direct light can advantageously be transmitted through the Re are deflected in a targeted manner so that the best possible Recognizability while saving additional or larger bulbs is given. By integrating the Display device in a housing corner is a design given advantage, none of the housing design annoying bulbs are necessary.

Two reflectors are advantageously below one transparent outer wall arranged by a corner of the housing is formed. The two reflectors and the Au Outer wall are formed by a body, the Body has flat surfaces that serve as reflectors. A such a structural design and arrangement of elements is special to save space and cost-effectively.

The reflectors are expediently under one given angle of 45-100 °, preferably 90 °, to each other assigns. The reflectors are also under a win kel of 20-70 °, preferably 30-50 °, in particular about 35 °, for Path of the emitted direct light of the first emission direction device arranged.

Further advantages and details of the invention are set out below exemplified with reference to the drawing. Show it:

Fig. 1 towards a donor member with an integrated Anzeigevor,

Fig. 2 shows a transparent body of the device device in detail and

FIGS. 3 and 4 is a sectional view of the donor element

The transmitter element 1 in FIG. 1 has a housing 3 on which a display device 5 is arranged. In the present case, the display device 5 is integrated in the corner of the housing 3 at a favorable design. The connection or mechanical fastening of the display device 5 on the housing 3 takes place with - according to the prior art - known means, for. B. by gluing, by ultrasonic welding or by a plug or snap connection. The display device 5 is advantageously shaped such that a flush outer contour is provided on the housing 3 . If necessary, the display device can also be raised, protruding from the housing shape.

The integrated in the housing 3 display device 5 is corner-shaped. Thus, three on the opposite sides of the display device 5 are illuminated on the housing 3 . The display device 5 comprises on the one hand a body 7 designed as a transparent window, which has reflectors 11 , and on the other hand has a light source.

7 Fig. 2 shows the body of the display device 5 in a spatial representation of an interior view.

It is pointed out that, in an imaginary way of looking at FIG. 2, an optical illusion can create a false spatial impression. The edges C and D must extend into the room towards the viewer. The rounded edge E must protrude into the plane of the drawing.

The body 7 has an outer wall 9 which forms a transparent window, flat surfaces 13 and a reflector base 15 . The body 7 is blunt in its core in the manner of a pyramid, the plane surfaces 13 serving as reflectors 11 . When light is radiated through the reflector base 15 , use is then made of the effect of boundary layer reflection.

The body 7 can be made of materials such. B. glass, translucent plastic or materials and / or materials with low light attenuation.

FIGS. 3 and 4 show a section through a part of Ge berelements in the range of the display device corresponding to the section III or IV of FIG. 1. The general comments submitted relate to both figures. The Anzeigeevor direction 5 comprises a printed circuit 19 or circuit board of a transmitter electronics, not shown here, which is in operative connection with the light source 17 . The light source 17 is placed on the printed circuit 19 . The Lichtquel le 17 is designed as a light emitting diode. The light source 17 borders on the reflector base 15 , which forms a structural unit with the flat surfaces 13 . The flat surfaces 13 are inclined towards the center of the reflector base 15 at an angle of ideally 20-70 °, preferably 30-50 °, in particular approximately 35 °.

The flat surfaces 13 are offset from one another by approximately 90 °. The plane surfaces 13 serving as reflectors 11 are arranged inside the body 7 below the outer wall 9 .

The encoder element 1 is preferably used in a proximity switch. Starting from a detection area of a proximity switch that an object is approaching, a sequencer is triggered in the sensor element 1 , the result of which is output as a switching command. This switching command is used, among other things, to control the light source 17 , here an SMD light-emitting diode. The control takes place electrically and causes the light source 17 to light up.

The light of an SMD light-emitting diode essentially consists of direct light in the first emission direction 23 , which is emitted ortho gonally to the surface of the light source 17 . The direct light in the first radiation direction 23 radiates through the reflector base 15 on the one hand in a straight line and on the other hand onto the plane surfaces 13 protruding into the path of the direct light 25 . The direct light is deflected at a certain angle on the plane surfaces 13 . This angle is between 20-70 °, preferably 30-50 °, in particular approximately 35 °. The reflected light in the second radiation direction 29 and in the third radiation direction 33 thus emerges from the outer wall 9 at the desired angles. So light emerges from the outside of the body.

As an alternative to the existing light source 17 in the form of an SMD light-emitting diode, the light source 17 can also, for. B. be designed as a conventional light-emitting diode. These can be arranged inside the housing corner below the outer wall 9 and below the reflectors 11 or also deeper within the housing 3 of the transmitter element 1 .

Furthermore, the light can be single, separate or separate arranged reflectors, which are also combined from several or consist of differently positioned mirrors can be redirected. The reflectors can also be inverted be arranged to the geometry described above or as Concave mirror also for the desired illumination of a Ge lead house corner.

Claims (6)

1. encoder element ( 1 ) with a housing ( 3 ) and a display device ( 5 ) with
a light source ( 17 ) which essentially has a first beam direction ( 21 ) for light emitted by the light source ( 17 ), the light source ( 17 ) comprising a light-emitting diode, and
Reflectors ( 11 ), which serve to deflect part of the direct light of the light source ( 17 ) into a second and a third radiation direction ( 27 , 31 ), the first, second and third radiation direction ( 21 , 27 , 31 ) being directed differently , 2. Transmitter element according to claim 1, wherein two reflectors ( 11 ) are arranged below a transparent window ( 9 ) which is formed at a corner of the housing ( 3 ). 3. Transmitter element according to claim 2, wherein the two reflectors ( 11 ) and the transparent window ( 9 ) are formed by a common body ( 7 ). 4. Transmitter element according to claim 3, wherein the reflectors ( 11 ) of flat surfaces ( 13 ) of the common body ( 7 ) are formed. 5. Transmitter element according to claim 4, wherein the plane surfaces ( 13 ) are arranged at a predetermined angle of 45-100 °, preferably 90 ° to each other and protrude into the path of direct light ( 25 ) of the first radiation direction ( 21 ). 6. Encoder element according to claim 4 or 5, wherein the plane surfaces ( 13 ) are arranged at an angle of 20-70 °, preferably 30-50 °, in particular approximately 35 °, to the first radiation direction ( 21 ).