DE3722348A1 - Rear view mirror system with continuously adjustable reflection - Google Patents

Abstract

A rear view mirror system which operates according to the principle of dynamic dazzle reduction by reducing reflection permits continuous adjustment of reflection. It consists of 1 to 3 electrochromic rear view mirrors, one sensor and one electronic drive system. It is equipped in such a way that by means of a variable voltage at the electrodes of the electrochromic thin-film packet a continuous adjustment of the reflectivity of the rear view mirror is set. In this process, the light strength indicated by the sensor is converted into associated reflection values, the adaptation capability of the eye is taken into account in respect of the speed with which the reflection is changed, the warning function of brief dazzle processes (headlamp flasher) is not restricted and adaptation of the reflection to changed light/dazzle conditions is ensured during the adjustment process.

Description

The invention relates to an improved rearview mirror system for vehicles.

Various mirror systems have been developed, one Glare to a driver by vehicles behind should decrease. A basic distinction must be made between static glare reduction through a reduction the reflectivity of the automobile rear-view mirror (e.g. DESAG interference mirror) and dynamic glare reduction by using mirrors with adjustable reflection.

The following are known as mirrors with adjustable reflection:

• 1. The electromotive driven, mechanically adjusted bare wedge mirrors; here are two states of reflection adjustable: the maximum reflection = 80%; the minimum Reflection is equal to the physical and unchangeable surface reflection on glass of approx. 4%; this gives a contrast ratio of 1:20.
• 2. A rearview mirror based on a liquid system with two reflection states: Here the maximum is Reflection approx. 50% and the minimum reflection approx. 20%. This gives a contrast ratio of 1: 3.
• 3. The so-called electrochromic mirror (DE-PS 30 08 798):
  Here the reflection can be continuously adjusted between 6 and 60%. A contrast ratio of 1:10 is achieved.

The above-mentioned dynamically effective mirror systems common that by changing the reflectivity of the Mirror a glare reduction is achieved. Basically is to distinguish between the manual and the automatically controlled systems.

The functional sequence of a hand-switched system runs as follows:

The glare is initially perceived by the vehicle driver taken. After the driver's reaction time, the driver switches in the state of lower reflectivity (the Switching time is due to the strain on the driver the current driving situation and the type of operation direction indefinite). The one caused by the glare The driver's vision is then reduced an individual reading time of the eyesight of the Driver dismantled.

This means that hand-switched systems have three main advantages parts, particularly in mirror systems where all Rear view mirrors can be dimmed, it becomes important:

• 1. The glare is initially for a period of time not prevented.
• 2. The manual switching requires an additional load on the Driver at the expense of concentrating on his driving gift.
• 3. Switching back to the day position is not done by a (blend) signal triggered; it can be forgotten.

A sensor-controlled, automatically acting system can detect the increase in light intensity at an early stage and the reflectivity of the rearview mirror accordingly put. Here, however, is the distinction between Systems that have a continuous adjustability of the Allow reflection (e.g. the electrochromic automotive back mirror) and systems that only have two reflection settings know, important. Set one in two reflection positions In principle, the system can be made in two different ways Operating states are operated:

• 1. If the sensor is set to be sensitive, the mirror will fall into the state of lower reflection at an early stage, ie even with low light intensity. This effectively prevents glare. However, the following disadvantages have to be accepted:
  • 1. Sudden light reflections (street lighting, but also: flasher) are taken into account, and so there is a frequent switching between the reflection states. In the case of wedge mirrors driven by an electric motor, this means an additional (noise) burden on the driver.
  • 2. The warning functions emanating from brief light reflections, eg. B. a flasher or a blue light, are "hidden".
  • 3. Even with medium light intensity, which does not require total dimming of the system, the sensitive mirror is in the dimmed state. In this way, the driver receives little information about the rear traffic situation.
• 2. A relatively insensitive sensor, connected with a two-state system prevents this Disadvantages, but accepts that it dazzles the Driver comes. It is therefore very effective similar to the manual system with the advantage that the additional Bela due to manual switching driver and the reset to the The day position cannot be "forgotten".

The aim of the present invention is a rearview mirror system based on the principle of dynamic blendmin change through reflection reduction works, however Disadvantages of such systems described above are not having. The aim of this invention is in particular a Rearview mirror system, which is a continuous one position of reflection allowed.

These goals are matched with a rearview mirror system reached the patent claims.

An electrochromic mirror allows continuous Adjustment of reflection. A sensor built from it controlled and thus automatically effective mirror system with variable reflection now controlled by one Differential light sensor, an adjustment of the reflection rate of change to traffic behavior. Short term Any light reflections with a warning function are not faded out det. Due to the continuous adjustability of the The reflection can vary depending on the intensity of the mirror Glare source can be set.

The invention is explained below with reference to the drawing Lich explained. It shows

Fig. 1 the basic arrangement of a mirror system from an inside mirror and two outside mirrors,

Fig. 2 the structure of the interior mirror and

Fig. 3 the structure of the exterior mirror.

The sensor-controlled rearview mirror system according to the invention with continuously adjustable reflection consists of an inside mirror 1 and one or two outside mirrors 2, 3 . The sensor can be controlled individually for each mirror or with one sensor for all mirrors. The following describes a mirror system in which each individual mirror has its own control electronics and heating control and is controlled by a central sensor.

The basic arrangement of a mirror system, which consists of an inside mirror 1 and two outside rear-view mirrors 2, 3 , is shown in Fig. 1. All three mirrors are connected to the battery 4 via separate lines. The differential light sensor 5 housed in the housing of the interior mirror 1 measures both the glare intensity of subsequent vehicles and the ambient light intensity through the windshield. This differential light sensor 5 is constructed from an ambient light sensor 15 and a glare sensor 16 , the ambient light sensor being accommodated in such a way that the light intensity of oncoming vehicles is masked out. The electronics in the interior mirror 1 prepare the signal of the differential light sensor 5 so that it controls both the electronics of the interior mirror and the exterior mirrors 2, 3 as a setpoint via the control line 7 . The sensor electronics 10 is constructed in such a way that it has a characteristic map that is controlled dynamically by the ambient light sensor 15 . At high ambient light intensity, no output signal is given to the control electronics even with a possible difference signal between ambient light sensor 15 and glare sensor 16 . Only when the threshold value falls below a predetermined value or can be set as a sensitivity from the outside via a slide potentiometer 6 , the sensor electronics for a given difference signal between the ambient light sensor 15 and the glare sensor 16 pass on a setpoint to the control electronics. The setpoint corresponds to the difference signal of the two sensors 15 and 16 . The dynamics are controlled by the absolute intensity of the ambient light sensor 15 .

The inside mirror is, as can be seen from Fig. 2, constructed as follows: With an outer cover frame 8 , the mirror system, consisting of an electrochromic thin-film system 9 glued as a sandwich with heating applied on the back (not shown) and electronics 10 im applied thereon Mirror housing 1 ' fixed. A rear plastic cover 11 protects both the electronics 10 and also serves to fasten a fastex connection 12 for the power connection and the outward setpoint line 13 for the exterior mirrors. The electronics 10 designed as a hybrid are attached directly to the electrochromic thin-film system 9 bonded as a sandwich. It also carries a connection for the temperature sensor 14 which is attached directly to the rear of the mirror. Separately, the ambient light sensor 15 and the glare sensor 16 are accommodated in the mirror housing. The sensor electronics are integrated in the overall electronics. The sensitivity or the threshold value of the sensor electronics is set via a slide potentiometer 6 . The outer cover frame 8 and the rear arranged as a cover plastic plate 11 have the task of protecting the electronics 10 and the electrochromic thin film system 9 from environmental influences.

The exterior mirror 2 or 3 is basically constructed in the same way as the interior mirror 1 ( Fig. 3). In a system in which the system is controlled via a central sensor, the differential light sensor is missing from the exterior mirror. Again, the electrochromic thin film system 9 ' with integrated heating by an outer plastic frame 8' and a rear plastic plate 11 ' , which at the same time serves to accommodate the plug connection 12' , is protected from environmental influences. With a suitable sealing material and the installation of a pressure compensation system, a liquid-tight seal of the entire exterior mirror 2 or 3 is achieved. The heating output and the Heizungsre control are controlled so that they are adapted to the prevailing environmental influences. The electronics 10 ' and the temperature sensor 14' are fixed with a double-sided tape on the back of the electrochromic thin-film system 9 ' .

Claims (7)

1. rearview mirror system, which works according to the principle of dynamic glare reduction by reflection reduction, characterized in that it allows continuous adjustment of the reflection by consisting of 1 to 3 electrochromic rearview mirrors, a sensor and control electronics such that by a variable voltage on the electrodes of the electrochromic thin-film package, a continuous setting of the reflectivity of the rearview mirror is set, the light intensity displayed by the sensor is converted into assigned reflection values, the adaptability of the eye with regard to the reflection speed is taken into account, the warning function of short-term glare is not is restricted and an adjustment of the reflection to changed light / glare conditions is also guaranteed during the adjustment process. 2. Mirror system according to claim 1, characterized in that individual mirror surfaces are spherical or aspherical are arched. 3. Mirror system according to claim 1, characterized in that the reaction depth of the mirror system by a Selector switch is customizable. 4. Mirror system according to claim 3, characterized in that individual customization through a memory system he follows. 5. Mirror system according to claim 1, characterized in that each individual mirror has its own control electronics and a central sensor is controlled. 6. Mirror system according to claim 5, characterized in that the control electronics are switched such that at Absence of the setpoint specification (e.g. in the event of a cable break or Short circuit) the maximum reflection is set. 7. Mirror system according to claim 1, characterized in that the sensor is a differential light sensor.