DE19531289A1 - Optical image recorder - Google Patents

Abstract

The recorder has a measurement unit with at least one measuring element firmly secured to the recorder housing which can measure the tilt and generate a signal based on the tilt. An evaluator unit supplied with the signal controls a display showing the tilt of the recorder relative to the horizontal plane. The measuring element can be a tilt sensor, an acceleration sensor or a tilt switch. The display can provide optical or acoustic indication of the instantaneous value measured by the measurement unit or indicate a change in the value as a variation in the tilt value.

Description

Optical image recording devices such as film cameras, photo cameras or Camcor these are widespread and widely used these days. Problematic with the However, inadequate protection against tilting of the Device when selecting the subject or during the recording; especially for the inexperienced operator is therefore in the manual handling of such devices there is a great risk of "tilting" buildings or landscape photos to produce "leaking" waters.

The invention has for its object an optical image recording device to be specified, which enables an improvement in the recording quality.

This object is achieved by the features in the characteristics of Pa claim 1 solved.

Advantageous developments of the invention result from the subclaims.

In the presented optical image recording device, a measuring device is used unit by determining the inclination of the optical image pickup device in one predetermined plane - preferably in the plane perpendicular to the main optical axis se - the angular deviation of the subject to be recorded from the horizontal Right; this angular deviation is evaluated by means of an evaluation unit communicated to the operator optically or acoustically by means of a display unit.

The measuring unit for determining the angular deviation has at least one for example as a tilt sensor, tilt switch or acceleration sensor  formed measuring element to detect depending on the desired inclination plane in a defined position with the optical image recording device is connected; depending on the number and design of the measuring elements can be one or more inclination planes of the optical image pickup device can be detected. The current measured value of the measuring element or elements the measuring unit is used as an analog signal (e.g. an inclination sensor or accelerator inclination sensor as a measuring element) or as a digital signal (e.g. an inclination scarf ters as measuring element) either automatically or as a result of manual actuation to the Evaluation unit forwarded. The evaluation unit (e.g. a microprocessor) is processed processes the current measured values and provides them (the output unit) in a suitable manner and available: ex. the current measured value from the evaluation unit (if necessary after appropriate signal processing by smoothing, filtering or the like) continuously fed to the display unit or the current measured value is compared with a predetermined threshold value and depending on this Comparative controlled the display unit. The Be servant (for example by means of optical or acoustic signals) signals that the he intended optical recording either with the horizontal over agrees or deviates visibly from the horizontal, the display unit can either permanently display the angle of inclination or only from one certain inclination angle of the current measured value is activated. For example can by means of an optical display device of the display unit the angle of inclination into the viewfinder field of the optical image recording device (the degree of skewing) and when continuing to rotate the optical image device the direction of rotation (greater / smaller inclination or stronger / weaker more skewed) are displayed; by means of an acoustic display device the display unit can, for example, an acoustic warning signal the over exceed a given threshold and the direction when turning further (greater / smaller inclination) by increasing or decreasing a sound signal are displayed.  

Advantageously, in the presented optical image recording device because of the determination of the image inclination and its display especially for the un Experienced operators can achieve an improvement in image quality, taking on due to the increasing spread of the required measuring elements and their minia turization (micromechanical embodiments) an inexpensive realization tion is possible.

In one embodiment, a photo camera is used as an optical image device a micromechanical tilt sensor as a measuring element of the measuring unit used to determine the deviation from the horizontal, the Nei tion sensor firmly connected to the housing of the optical image recording device that is. By lightly pressing the release button for optical image recording direction, the evaluation unit is activated which determines the one determined by the measuring unit compares the analog signal with a threshold value. When the threshold is exceeded values (e.g. this is fixed in the event of a deviation of ± 1 ° from the horizontal the display unit is activated, which is indicated by an optical display (e.g. a flashing LED) the operator to keep the skew and (e.g. by an analog or di gital optical display in the viewfinder field) the degree of skewing by display of the absolute value of the angle of inclination is signaled.

Claims (8)

1. Optical image recording device with:

• a measuring unit with at least one measuring element which is determinable of the inclination and which is firmly connected to the housing of the optical image recording device for generating an inclination-dependent measuring signal,
• an evaluation unit, to which the measurement signal determined by the measurement unit is fed for evaluation,
• - A display unit controlled by the evaluation unit to show the inclination of the optical image recording device with respect to the horizontal plane.

2. Optical image recording device according to claim 1, characterized in that the measuring elements of the measuring unit are designed as inclination sensors. 3. Optical image recording device according to claim 1, characterized in that the measuring elements of the measuring unit are designed as acceleration sensors. 4. Optical image recording device according to claim 1, characterized in that the measuring elements of the measuring unit are designed as inclination switches.   5. Optical image recording device according to one of claims 1 to 4, characterized ge indicates that the display unit is the measured value of the measuring unit as the current one Outputs inclination value optically or acoustically. 6. Optical image recording device according to one of claims 1 to 5, characterized ge indicates that the display unit changes the measurement value of the measurement unit output as a variation of the inclination value optically or acoustically. 7. Optical image recording device according to one of claims 1 to 6, characterized ge indicates that the evaluation unit precedes the measured value of the measuring unit compares the given inclination threshold and the display unit as a function enabled this comparison. 8. Optical image recording device according to claim 7, characterized in that the display unit optically or acuously exceeds the inclination threshold tables.