DE4031658C2 - Flash control device for a camera - Google Patents

Description

The present invention relates to a flash control device for a camera with a built-in flash according to the generic term of claim 1.  

DE 36 39 751 A1 describes configurations of cameras with built-in, mechanically in an operating position extendable flash units known pop-up mechanism. Here is one Generic control device provided so that when the Light emitting device of the flash unit is not in the Operating position, the power supply for the built-in flash is interrupted, and when the Light emitting device in the operating position to the outside projecting, the power supply is connected to the to supply built-in flash with energy.

DE 38 44 143 A1 shows a camera with a in the housing of the fold-out built-in flash integrated auxiliary Light emission element for the projection of a contrast pattern on the object to measure the distance of the AF camera.  

In such known flash control devices Control of flash light radiation usually according to Exposure factors cause, like brightness data one object to be photographed or calculated exposure time Data. If the object brightness in the photograph is below a predetermined value the light emitting element in the operating position ge brings to emit flash light. After the flash light is emitted, the light emitting element returns to the withdrawn position. If contrary for this purpose the object brightness above a predetermined Value, the light emitting element is in the back Leave the drawn position because the flash is not necessary is dig.

In a conventional camera with a flash control advises, as mentioned before, there is a possibility that the light emitting element is not for certain reasons can drive into the operating position. The light beam element can z. B. do not move if it is from the Hand held by a photographer, or when an off acceptable external flash of such shape on the camera is attached so that the removable external flash Light emitting element is in the way, etc. It results without further ado that a clear picture was not taken can be when the light emitting element is not in  can move the operating position, even if Flash light is emitted.

With conventional cameras, the solution was the same as before Issues mentioned not considered. If so the light emitting element that is not in the operating position tion, flash light is emitted, an underexposure occurs or a uniform distribution of brightness cannot be obtained. In contrast, if the end solve is inhibited if the light emitting element is not moved to the operating position, the photographer could miss a shot.

It is also known to have a forced light emission provide switch that is operated to the recording to bring the mode into a forced light emission mode the flash light is forcibly emitted independently the brightness of an object to be recorded. The Providing an additional forced light emission scarf ters, however, complicates the camera.  

A photographer wants the mode of operation from "automatic Change light emission mode "to" forced light emission mode ", see above he must have this additional switch or one Press the operating mode selector switch. Decides Photographer only after he has the desired object in the Has arranged viewfinder image field and a light measurement has performed for the forced light output mode, so takes he usually takes his eye off the viewfinder eyepiece, changes the Operating mode and must the object again in the viewfinder image field arrange.  

There is also an AF camera (AF = autofocus) with built-in flash, which is an auxiliary light beam ment that emits a contrast pattern when the Object brightness below a predetermined value and a camera with a self-timer picture known function. This is the case with the known cameras Auxiliary light emitting element in the main flash light beam element or provided in the camera housing and a self-timer indicator to indicate self-timer Solver operation is provided in the camera housing. The Arrangement of the self-timer indicator in the camera However, housing is not possible everywhere, especially  if the camera housing is housed in a housing pocket is brought. There is also the possibility that the lens gets in the way of the self-timer indicator stands so that it is dependent on a photographer difficult from the position of an object to be recorded can be watching the ad, even in a recording area in which an image of the object can be included.

With a camera with a built-in flash, the light can blasting element at any location within an area be observed, which is illuminated with flash light can be. Accordingly, it is theoretically possible to Self-timer indicator in the flash light beam ment.

With this option, the self-timer display however not be observed from the object when the light is in the retracted position.

To enable it, therefore, the self-timer display to observe, the flash light emitting element in the Self-timer mode brought to the operating position even if no flash is required. However, this is not practical, especially with a camera in which the light emitting element is operated manually is released from a locking element to it in the Bring operating position as an indication of self trigger indicator cannot be observed when a Photographer does not release the light emitting element, so that the The time of triggering cannot be known.  

The object of the present invention is a Flash control device for a camera with built - in an operating position extendable flash unit and with at least two flash modes, namely one automatic light emitting mode in which a flash light only can be delivered if the by a control unit in Dependency on object brightness data determined Shutter speed a certain limit falls below and a forced light emission mode in which with a flash sync shutter speed a flash can be emitted to provide that a user-friendly activation of the forced Light emission mode enabled if necessary.

This problem is solved by a Flash control device with the features of Claim 1.  

Accordingly, without operating one Mode selector switch from the automatic Light output mode in the forced light output mode can be switched.

Favorable embodiments of the invention are the subject of Subclaims.  

If in an embodiment of this arrangement, the light emitting element at Do not emit the flash for any reason is moved into the operating position, the built-in Flash inhibited to emit flash light, and accordingly a photographer does not take bad pictures because of a not normal flash emission, yet he misses  a chance of admission due to inability to work the shutter (e.g. inhibition of the trigger).

An exposure control device is preferably provided see the shutter speed identical to that Set flash sync speed when the radiation control device the built-in flash causes the flash to light according to the exposure factor to emit. If the light emitting element in the Flash mode not in the operating position the built-in flash is controlled by the radiation control device inhibited to emit the flash, so that the exposure control means an optimal Exposure factor (optimal shutter speed) sets to the case when no flash emits becomes. Thus, an image with an optimal exposure value, even if the light blasting element for some reason not in the Be drive position is brought.

For a camera with a removable external flash can be attached, causes the emission tax both the built-in flash and the external flash to emit flash light when the ex ternal flash is attached to the camera body. The Radiation control device inhibits the built-in flash, Flash emit when the light emitting element is not brought into the operating position, so that Flash only from the external camera brought lightning is emitted.

Thus, an image with an optimal exposure value can be taken be taken even if the light emitting element of the  built-in flash for some reason not in the Operating position is moved. As a result, receives a photo never count bad pictures due to a non nor paint flash light, he still misses the poss possibility of admission due to a business suspension of the closure.

According to another aspect of the present invention a flash control unit for a camera is installed created flash, which is a light emitting element of the has built-in flash in a camera body is carried by a carrier mechanism to move between a retracted position and an operating position tion to be moved, and a drive mechanism has to return the light emitting element between the pulled and the operating position to move, the Improvement includes a flash control unit that includes a first switching device, a second switching device, a light measuring device for calculating a Beilich tion factor when the first switching device is turned on is switched, and has a radiation control device, to move the light emitting element into the operating position if the exposure factor is below a predetermined value, so that the built-in flash Flash light emits when the second switching device is switched on.

With this arrangement, the mode of automatic light radiation mode or the forced light emission mode if the light emitting element in the retracted position or is in the operating position. Accordingly, a Be drive switch for switching the light emission mode not necessary.  

According to another aspect of the present invention a flash control unit for a camera is installed created flash that has a light emitting element, that in a camera housing through a carrier mechanism is worn to between a withdrawn and an operating position to be moved back and forth, and a drive mechanism for moving the light emission element between the retracted position and the Has operating position, the improvement being a flash contains control unit, that an auxiliary light emitting element, which is provided on the light emitting element to a To emit contrast patterns, a self-timer shot metering device and a self-timer display control direction for driving the drive mechanism has to to move the light emitting element into a position in which is the light emitting element for a to be recorded Object by blinking the auxiliary light emitting element is visible.

Since in this construction the light emitting element in Self-timer shooting mode in a predetermined position tion is moved, and since the auxiliary light emitting element flashing to indicate self-timer mode, it can Observe self-timer indicator from an object be somewhere within the possible flash Light lighting area is arranged.

When the self-timer indicator and auxiliary Light display element from a single element best hen, the number of components can be reduced. Conversely, if the self-timer display element is ge separates from the auxiliary light emitting element  a more effective self-timer indicator and an effekti vere auxiliary light emission possible.

According to another aspect of the present invention a flash control unit for a camera is installed created flash, which is a light emitting element of the has built-in flash in a camera body by a between a retracted position and an operating position of reciprocable carriers mechanism is mounted, and a drive mechanism to move the light emitting element between the retracted position and the operating position has the improvement includes a flash controller that has a self-timer indicator on the Light emitting element is provided to open up from one object to be visible when the light is off beam element is in the retracted position, one Self-timer shooting device and a self-timer solver display control device for displaying the self trigger display element in self-timer photography has to display self-timer photography.

With this arrangement, the self-timer indicator can be made by the self-timer indicator ment is driven while the light emitting element is left in the retracted position.

The invention is detailed below with reference to Embodiments with reference to the drawing described.

Fig. 1 is a schematic view of a flash light emitting element and its surroundings in an automatic focusing single-lens reflex camera with built-in flash to which the present invention is applied;

Fig. 2 is a front view of the camera of Fig. 1, to which an external flash is mounted, shown in an operating position in which a light emitting element of a built-in flash protrudes toward the camera body;

Fig. 3 is a block diagram schematically showing a circuit arrangement of a single-lens reflex camera shown in Fig. 1;

FIGS. 4A, 4B, 4C and 5 are flow charts of the operation of the camera of FIG. 1;

Fig. 6 is a perspective view of a flash light emitting element, and its surroundings according to a development of the invention;

FIGS. 7A and 7B are sectional views of a flash light emitting element according to a further development of the invention, which is shown position in a retracted position or an operation;

Fig. 8 is a view like FIG. 1 similar view according to the development of the dung after OF INVENTION Fig. 6 and Fig. 7.

Fig. 1 schematically shows a powered retractable type flash to which the present invention is applied. Fig. 2 shows a one-eyed reflex camera, which holds a flash control device according to the invention ent. In FIG. 2, the light emitting element of the flash in an operating position (Lichtabstrahlposition), in which it projects with respect to a camera body 10. A removable external flash 25 , which will be described below, is attached to the camera body in FIG. 2.

In Figs. 1 and 2, the camera body 10 is provided in its upper portion (pentagonal prism 11) having a light emitter 12, which is carried by a support mechanism between a to retracted position shown by an imaginary line in the the light emitting element is gen 12 in an input section 10 a of the camera body 10 Retired, and an operating position (Lichtabstrahlposi tion) to be movable, as shown by a solid line and in which projects the light emitting element 12 opposite to the input portion 10 a. It should be noted that only one of the levers 13 is shown in Fig. 1, which form the support mechanism.

Each of the levers 13 is articulated at one end on the rear side of the light emitting element 12 via a shaft 13 a and at its opposite end on the side wall of the input section 10 a provided in the camera housing 10 via a shaft 13 b. One of the levers 13 has a sector gear 14 with a center point which is centered on the central axis of the shaft 13 b. The sector gear 14 is a gear reference 15 in engagement with a pinion of a flash motor, which forms a drive device. Accordingly, the rotation of the flash motor 16 is transmitted to the lever 13 via the gears 17 , 15 and 14 , so that the flash light emitting element 12 is moved via the lever 13 according to the direction of rotation of the motor 16 in the retracted or the operating position.

Between the levers 13 and the camera housing 10 , two limit switches 18 and 19 are provided to detect the retracted or the operating position of the Lichtabstrahlele element 12 . Switches 18 and 19 are turned on when the light emitting element comes into the retracted or operating position.

The operation of the flash motor 16 is controlled by the camera control circuit 20 so that the flash motor 16 is stopped according to the detection of the sensors (switches) 18 and 19 . The detectors for detecting the retracted position and the operating position of the light emission element are not limited to the limit switches 18 and 19 , as explained in the figures, but can, for. B. be constructed from a combination of a brush and a co-dated plate with coded contacts that come selectively in sliding contact with the brush.

The sector gear 14 has a pin 14 a, which extends parallel to the axis of the shaft 13 b. The pin 14 a is fitted into an arcuate recess 10 b, the center of which is coaxial with the shaft 13 b and which is formed in the camera housing 10 . The pin 14 a and the arcuate recess 10 b limit the Winkelbe movement of the sector gear 14th The angular Endpo positions of the lever 13 are namely defined by the contact of the pin 14 a against the opposite sides of the arcuate recess 10 b. The angular end positions correspond to the operating position and the retracted position of the light emitting element 12 .

In the illustrated embodiment, an overload detection circuit 21 of the flash motor 16 is provided to detect an overload, e.g. B. is generated when the movement of the light emitting element 12 is interrupted by an external force or the like. Where the motor 16 is stopped. The overload Erfas sungsschaltung is included in the illustrated embodiment, in the camera control circuit 20th Alternatively, it is possible to stop the flash engine 16 when the excessive load detecting means detects that over the operating position or the retracted position of the light emitting element 12, no further rotation of the lever 13 due to the abutment of the pin 14 a at the end sides of the arcuate recess 10 b occurs.

The following discussion is directed to a circuit arrangement of the flash control device according to the invention, with reference to FIG. 3.

The camera control circuit 20 , which generally controls the overall operation of the camera, typically consists of a microcomputer. The camera control circuit 20 is connected to a light measuring circuit 22 which amplifies and logarithmically compresses the output of a light measuring sensor 21 which receives object light in order to process the output into predetermined light measuring signals.

The camera control circuit 20 calculates the exposure factors (e.g., object brightness, exposure time Tv, aperture value, camera shake limit shutter speed, etc.) according to a predetermined algorithm based on data such as film sensitivity data and the light measurement signals output from the light measurement circuit 22 .

The camera control circuit 20 reads lens data output from a lens ROM 23 (or CPU) provided in a lens attached to the camera body in accordance with serial communication. On the basis of the lens data read, the type of lens attached to the camera housing, the focal length of the lens, its minimum aperture value and its aperture value (light intensity) etc. can be obtained. It should be noted that the camera control circuit 20 serves as a lens data input device. The serial communication is carried out via the electrical connection of a plurality of contacts which are provided on a carrier 24 .

Contacts of an accessory shoe, to which an external flash 25 can be removably attached, are connected to the camera control circuit 20 . In the case of an external flash 25 with a communication function, flash data from the external flash 25 via the accessory shoe 26 are entered into the camera control circuit 20 . The flash data contain e.g. B. Data that determine whether the external flash fits the camera body 10 , that is, whether the external flash mentes the movement of the Lichtabstrahlele element 10 upward, whether the charging of the flash has ended and the guide number. On the other hand, from the camera control circuit 20 , light emission permission signals, trigger signals, and termination signals are input to the external flash 25 .

A light measuring unit 27 contains a light measuring sensor which converts an image of an object formed by the lens into an electrical signal and outputs the light measuring signal which is necessary to detect the object distance (degree of blurring). The camera control circuit 20 calculates the degree of blurring according to the light measurement signal and the lens data to carry out the AF process (automatic focusing) for driving a focusable lens of the lens into the focused position via an AF mechanism.

An LCD display 29 is provided on the outer side of the camera housing 10 within a viewfinder field and is controlled by the camera control circuit via a display circuit 28 . In the embodiment shown, the LCD display 29 shows at least the approval or the inhibition of the light emission of the flash. It is of course possible to display further information about the recording function of the camera, such as exposure program modes, shutter speed, aperture value, "out of focus" or "in focus", etc.

Various switches are connected to the camera control circuit 20 , including a light metering switch (first switch) SWS, a trigger switch (second switch) SWR, a self-timer switch SW1, a light emission selection switch SW2, an enable switch SW3 for an unsuitable lens, and an upward movement Detection switch SW4 etc.

The light measuring switch SWS and the trigger switch SWR are assigned to the trigger 31 such that the light measuring switch SWS is turned on when the trigger is depressed by half a step, and that the trigger switch SWR is turned on when the trigger is depressed an entire stage. When the light measuring switch SWS is turned on, the light measuring circuit 22 and the object distance detection unit 27 etc. start to work. When the release switch SWR is turned on, the operation changes to the release operation.

The self-timer switch SW1 is a switch for loading drive the self-timer, being when the self-timer Solver switch SW1 is turned on, the mode on Self-timer mode will be in when the trigger switch SWR is turned on, the self-timer heritage drive begins and the trigger operation a predetermined Time period thereafter begins.

The light emission selection switch SW2 is a switch for changing the light emission mode of the flash. If the light emission selection switch SW2 is not turned on, the judgment as to whether the flash should be emitted according to the brightness data of the object detected by the light measuring circuit 22 and the lens data read from the ROM 23 is made in an automatic light emission mode. In contrast, when the light radiation selection switch SW2 is turned on, the flash light emission is forcibly controlled in a forced light emission mode. In the forced light emission mode, when the calculated shutter speed is higher than the flash sync speed, the camera control circuit 20 sets the shutter speed when triggered to the flash sync speed.

The unsuitable lens release switch SW3 is a switch for selecting whether or not the lens data read from the lens ROM 23 should be used to judge the flash emission. The release switch SW3 for the unsuitable lens is z. B. actuated when the flash light is to be emitted forcibly, although the viewing angle of the attached lens is greater than the flash angle.

The upward movement detection switch SW4 is turned on when the light emitting element 12 of the flash shown in FIG. 1 is moved fully up to the light emitting position. Preferably, the upward movement detection switch SW4 and the limit switch 19 may be constituted by a single switch.

A flash circuit 35 which causes the flash (light emitting tube 36 ) to emit the flash light, an auxiliary light emitting LED 37 adjacent to the light emitting tube 36 and the accessory shoe 26 are connected to the camera control circuit 20 . The camera control circuit 20 outputs the light emission permission signal, the trigger signal and the termination signal to the flash circuit 35 and the accessory shoe 26, respectively. The camera control circuit 20 serves as a Blitzsteuereinrich device.

The light emission permission signal allows light is emitted if the necessary conditions for Blasting the flash light are satisfied so that the built-in and the external flash with the preparatory Operation steps for light emission begin, such as the flash charging when they have the light emission permit received signal.

The trigger signal is a signal for emitting the flash light. The termination signal is a signal to stop the light emission when the amount of light from the flash has reached an optimal value. The auxiliary light emitting LED 37 emits a contrast pattern on the object to support the measurement of the object distance by the object distance measuring unit 27 when the object brightness or the contrast is low.

To the camera control circuit 20 are a trigger magnet 39 , which releases the mechanical tension of a mirror and a shutter (leading and subsequent diaphragm) when the trigger switch SWR is turned on, and magnets 40 and 41 for the leading and subsequent diaphragms connected Act on the leading and subsequent diaphragms in place of the mechanical engagement and sequentially release the engagement to thereby move the leading and subsequent diaphragms so as to obtain a desired shutter speed.

The X contact switch SWX is a switch for emitting the flash light from an external flash, which has less functions (no communication function), and is switched on after the movement of the leading diaphragm ends, to flash light from the external flash, controlled via the Accessory shoe 26 to be blasted.

The flash control device of a camera of the invention according to the structure described operates as follows ( Figs. 4 and 5).

First, the general operation of the device is brief explained.

In the flash control device of the invention, if the two requirements are met, that is, first, that the calculated shutter speed is below a predetermined value (e.g., the camera shake limit shutter speed), which leads to the need for auxiliary light by the flash, and that for the two th the lens attached to the camera with the built-in flash fits, the light emitting element 12 is moved up to the operating position to emit the light, and is then, upon completion of the light emitting down, moved to the retracted position .

In the case of the forced light emission when the calc nete shutter speed is higher (shorter) than that Flash sync speed, the ver closing speed on the Blitzsynchronisationsge speed set.

When the built-in flash is triggered, if the light-emitting element 13 does not end in the operating position, the emission of light from the built-in flash is prevented, so that the exposure is effected at an optimal shutter speed or aperture value, corresponding to the optimal exposure value, with the radiation of light by the external flash 25 when it is attached to the camera body, or without the emission of light when it is not attached to the camera body.

In the illustrated embodiment, there are four lights beam modes; a first mode in which both the on built in as well as the external flash emit light second mode in which only the external flash light off shines, a third mode in which only the built-in  Flash emits light, and a fourth mode in which Light neither from the built-in nor from the external Lightning is emitted.

Generally speaking, since the flash is required if the shutter speed is below a came shake limit shutter speed Tv, the question of whether the flash should be used preferably according to the calculated shutter speed speed and the camera shake limit speed Tv judged based on the focal length of the lens.

A more detailed explanation of the operation of the control device of the invention is given below with reference to the flow chart of FIGS . 4 (4A, 4B and 4C) and 5. Note that the operation is carried out according to a pro-gray stored in a memory of the microcomputer of the camera control circuit 20 .

In the embodiment according to FIGS. 4A to 4C, the automatic light emission mode is the output mode. The Lichtab beam element 12 is normally held in the retracted position. When the light metering switch SWS is turned on, the exposure factor is calculated in accordance with a predetermined algorithm based on the normal object brightness data Bv, film sensitivity, etc. If the calculated shutter speed Tv is below a predetermined value, that will Flash allows flash light to be emitted. In contrast, when the calculated shutter speed Tv is above a predetermined value, the flash is inhibited from emitting flash light.

After the light measuring switch SWS is switched on, if the calculated shutter speed Tv below a predetermined value and if the necessary conditions for emitting flash light are, the light emitting element in the operating position tion moves so that flash light is emitted when the Trigger switch SWR is turned on.

In the operating position of the light emitting element 12 , when the light measuring switch SWS is first switched off and then switched on again, the forced light emitting mode is set so that flash light is emitted, regardless of the calculated shutter speed, ie even at a high shutter speed (or short shutter speed). In the forced light radiation mode, when the shutter speed when triggered is greater than the Blitzsynchronisationsge speed, the shutter speed is set to this, so that the exposure with the flash light can be effected at an optimal exposure value.

When the light measuring switch SWS is turned on and off in the operating position of the light emitting element, the forced light emitting mode is set. When the light emitting element 12 is manually moved to the operating position, the mode of the forced light emitting mode becomes.

If the program starts on the condition that an image can be taken, e.g. B. by operating a main switch, the camera control circuit 20 inputs the respective switch data (ON? Or OFF?) Of the switches SWS, SWR and SW1 in step S1 and waits until the light measuring switch SWS is turned on (steps S1 and S3).

When the SWS light switch is turned on the switch data of the light emission selection switch SW2 entered the microcomputer (S5 and S7). If the Light emission selection switch SW2 is switched on, the flash light emitting mode turns into the forced light  beam mode changed (step S9), and when the light beam selection switch SW2 is switched off, remains Flash light emission mode in the automatic light down blasting mode. When the forced light down beam mode, the shutter speed when triggering on the flash sync speed speed set at which the shutter speed is synchronous with the light emission of the flash, so that the flash emits the light when triggered. If, other the automatic light emission mode is present, flash light is only emitted when it is determined that flash is necessary, according to the previous one control mentioned.

After that, the camera control circuit 20 reads the lens data stored in the lens ROM 23 and the signal transmission is effected between the camera body and the external flash 25 via the accessory shoe 26 (S11 and S13). The data stored in the lens ROM 23 include the type of the lens and the focal length, etc. The data output from the external flash contains its characteristics, e.g. B. whether the external flash 25 , when attached to the camera housing 10 , interferes with the outward movement of the light emitting element 12 into the operating position or not, the guide number, etc. It should be noted that when an external flash without communication function on the camera housing is attached, this attachment of the external flash is detected according to the signal level of the electrical contacts of the accessory shoe.

The camera control circuit 20 calculates the exposure factors, such as a shutter speed, according to the light measurement signal output from the light measurement circuit 22 and the film sensitivity data, etc., in steps S15 and S17.

Thereafter, the camera control circuit 20 causes the LCD display 29 to display the various values set in the camera through the display circuit 28 (step S19). The information displayed includes the flash mode, whether the lens attached is correct or incorrect, and whether the external flash is correct or incorrect, etc.

Thereafter, in step S23, an inquiry is made as to whether the self-timer switch SW1 is turned on or not, ie whether the mode is the self-timer mode or not. If the mode is not the self-timer mode (ie, the mode is the normal shooting mode), control jumps to step S33, and if the mode is the self-timer mode, it is checked in step S24 whether the operation is the self-timer mode. If the operation is not the self-timer operation, an inquiry is made as to whether the release switch SWR is on or not (step S25). If it is turned on, the self-timer counter starts, that is, the self-timer operation starts (step S26). Operation in self-timer mode is indicated by flashing external LED 32 ( FIG. 3) and decrementing the self-timer counter is performed (steps S28 and S29).

Thereafter, it is queried in step S31 whether the self trigger counter is 0. If NO, the control goes to step S20. If the counter is 0, it moves  control continues to step S33. In step S24 Control jumps to step S28 to self-off resume operation if the self-timer inheritance has already started. Even in the self-timer mo dus when the trigger switch SWR is not turned on control goes to step S25 Step S20.

In contrast, if the mode is not the self-off is solver mode, d. that is, when the mode is normal shooting control mode, control goes from step S23 to Step S33.

In step S33, a query is made as to whether the calculated ver closing speed below a predetermined who tes is (e.g. below the camera shake limit speed). If NO, the control jumps to Step S45 (AF process) because neither the main flash light radiation still require the auxiliary flash light radiation are dig.

In contrast, when the calculated shutter speed is below a predetermined value, it is checked in step S35 whether or not the external flash is attached. If NO, the control proceeds to step S39 to perform the process of moving the light emitting element 12 up to the operating position. If the external flash is attached, a query is made in step S37 as to whether its properties match the assigned camera or not. If the external flash meets the camera requirements, control returns to step S39, and if not, control transfers to step S45. The term "match" means that the external flash does not interfere with the upward movement of the light emitting element 12 to the operating position.

In step 539, the processing for moving the light emitting element up is performed. When the upward movement detection switch SW4 is turned on, that is, when the light emitting element 12 comes to the operating position, the auxiliary light emitting LED 37 is lit (step S43), and the control then proceeds to step S45 (AF process). If the upward movement detection switch SW4 is not turned on in step S37, the control proceeds to the AF process since light emission cannot be effected.

In step S45, the object distance is detected by the object distance detection unit 27 , so that the AF processing is performed by the AF mechanism to focus the lens (not shown) of the lens according to the detected object distance (degree of blur). to move to the focused position. After that, it is queried in step S47 whether the focusing lens is focused or not. When the focus is finished, control proceeds to step S49. In contrast, if focusing is not obtained in step S47, control goes to step S20 to update the switch states of SWS, SWR and even SW, and then to check the state of the light measuring switch SWS in step S21. If SWS is off, control returns to step S1. If the light measuring switch SWS is on in step S21, it goes to step S11 to repeat the above-mentioned operating steps until the focusing lens is moved exactly into the focused position.

The operating steps S11 to S23 to S31, S33 to S47 and S11 are repeated until the object is "sharp" after the self-timer counter in self-timer mode 0 becomes. On the other hand, in normal recording mode, the Loop operations S11 to S23, S33 to S37, S20, S21 and S11 repeats until the object is "sharp" after the Light measuring switch SWS is turned on and steps S1 to S9 are carried out. It should be noted that in the event of a trigger priority mode, the Control proceeds from step S45 to S49 regardless of the "focus", although the before started discussion on a focus- Priority mode was directed.

In step S49 it is queried whether the mode of the forced Light emission mode is. If YES, the control jumps to step S61 as expected from the built-in flash is that it emits flash light, independently the type of lens and the presence of a lens external flash. If the mode is not the forced light control mode continues with step S51.

In step S51, a query is made as to whether the calculated ver closing speed below a predetermined who tes lies. If NO, control jumps to step S77 to inhibit the emission of flash light and the Shutter speed when triggered on the calculated nete shutter speed because flash light is not necessary. The control then moves proceed to step S68 and checks the state of the trigger switch SWR. If the trigger switch SWR is switched off, Control goes to step S20. Is the  The trigger switch is switched on, the controller moves proceed to step S69 to perform the exposure.

If the calculated exposure value is below a predetermined value is abge in step S53 asks if the external flash is attached. If so, it is queried in step S54 whether the external flash with conforms to camera requirements. If not, Control jumps to step S75 to turn off the lights to inhibit radiation of the built-in flash and Shutter speed when triggered on the flash sync set the chronization speed because the Light emitting element, do not go into the operating position can. Thereafter, control proceeds to step S68 and if the trigger switch SWR is turned on is to step S69 to To perform exposure.

If the external flash meets the camera requirements, it is queried in step S55 whether the properties of the attached lens with the properties of the inserted built flash. If NO, it drives Control continues to step S75 to the light emission to inhibit the built-in flash since an object is not can be correctly illuminated with flash, even when flash light is emitted. If contrary the property of the attached lens with the egg characteristics of the built-in flash matches, drives control continues to step S56 to stop the light emission to allow the built-in flash and the Ver closing speed when triggered on the Blitzsyn adjust the chrono speed. After that the Control continues to step S63.

If the external flash is not attached in step S53 is queried in step S57 whether the lens  Camera requirements met. If YES, the tax is on proceeding to step S61; if NO, at step S59 to to query whether the release switch SW4 for a not suitable lens is switched on. If not is switched on, the control continues with step S77 because the built-in flash does not emit light. If the switch SW4, on the other hand, is turned on Control back to step S61 to flash the on built flash.

In step S61, the built-in flash is allowed to emit light, and the shutter speed when released is set to the flash synchronization speed. Then, in step S63, it is asked whether the upward movement detection switch SW4 is turned on, that is, whether the light emitting element 12 comes into the operating position. If the light emitting element 12 is not moved to the operating position, the flash motor 26 is driven to move the light emitting element up to the operating position (step S65). Thereafter, it is checked in step S67 whether the upward movement detection switch SW4 is turned on. If so, it is checked in step S68 whether the trigger switch SWR is turned on.

If it is on, the exposure in step S69 is performed under the conditions determined in step S61 (or steps S56, S75 and S77). After the exposure is completed, the light emitting element 12 is moved down to the retracted position when the light emitting element 12 is in the operating position (step S71).

If the light emitting element 12 is not moved to the operating position for some reason in step S65 so that the upward movement detection switch SW4 is not turned on, control proceeds from step S67 to step S73.

In step S73, it is queried whether the external flash is appropriate. If NO, the built-in flash will fire inhibited to emit flash light, and the shutter Speed when triggered is calculated on the Shutter speed set so that the Belich is carried out without flashing (Steps S77, S68 and S69). On the other hand, if the external Is attached, the external flash emits light after the light emission of the built-in flash is inhibited and after the shutter speed when triggering on the flash sync speed speed is set to perform the exposure (Steps S75, S68, S69).

Upon completion of the exposure, the light emitting element 12 is moved down to the retracted position when the light emitting element is in the operating position (step S71).

If the light measuring switch SWS is turned on in steps S20 and S21, but the trigger switch SWR is not turned on, the control skips steps S5, S7 and S9 and returns from step S68, step S25, S31 or S47 to step S11 (steps S20 and S21). As a result, when the light emitting element 12 is in the operating position, the forced emission mode is maintained. When the light emitting element 12 is not in the operating position, the automatic light emitting mode is maintained. After the light emitting element 12 which has been in the retracted position is moved to the operating position, the forced light emitting mode is automatically set when the light measuring switch SWS is first turned off and then on again. Accordingly, the automatic light emitting mode can be switched to the forced light emitting mode without the mode selection switch SW1.

Fig. 5 shows a subroutine of the display operation. If the light emitting element 13 is not in the operating position, if the external flash 25 is not suitable for the assigned camera (wrong) or if the attached lens is not suitable (wrong), then this is displayed and a warning is given (steps S81 to S87). The judgment that the light emitting element 12 is not in the operating position is effected in accordance with the detection of the upward movement detection switch SW4 as mentioned previously. In the display subroutine, the aforementioned four light emission modes of the flash and the set data of the camera are displayed in step S89.

As can be seen from the preceding discussion, according to the invention, the emission of the flash light is determined according to the object brightness and the lens data. If the flash light emission is necessary, the light emission element 12 is automatically moved up to the operating position to emit flash light during the exposure. If the Lichtabstrahlele element cannot be moved to the operating position for any reason, e.g. B. by influencing the Lichtab beam element 12 by the external flash, the built-in flash is inhibited to emit flash light, and flash light is emitted only by the external flash to perform the exposure at an optimal shutter speed and an optimal aperture value.

If the light emitting element 12 does not move to the operating position and the external flash is not attached, the built-in flash is inhibited from emitting flash light, so that the exposure is effected without flash. As a result, shooting errors due to abnormal lighting of the built-in flash do not occur, and the possibility that a photographer may miss a shot due to inhibition of exposure can be lowered.

For a camera to which an external flash is connected sen can, if the light emitting element of the  built-in flash does not move to the operating position only the built-in flash on emitting Flash light hindered and the flash light is from that external flash emitted, resulting in a normal flash effect leads.

Although the light emitting element 12 in the illustrated embodiment is carried by the retractable connecting mechanism with the levers 13 , the trigger mechanism is not limited up and may e.g. B. an extension mechanism or pop-up mechanism. In addition, the gear mechanism for moving the light emitting element 12 between the retracted position and the operating position can by another mechanism such as. B. a cam mechanism he sets. Alternatively, the movement of the light emitting element 12 from the retracted position into the operating position or vice versa can be effected by one or more springs.

Although in correspondence with the illustrated embodiment to get based on object brightness NEN shutter speed is judged whether the Flash used in automatic light emission mode should or should not, this assessment can be simple according to the object brightness.  

The following discussion is directed to a further development of the invention, which includes a display device which visibly displays the self-timer mode, regardless of the position of the object, with reference to FIGS. 6 to 8. FIGS. 6 to 8 are Elements corresponding to those of the first embodiment are given the same reference numerals.

A device is described in which the display of the self-timer mode can be observed from the viewpoint of an object to be photographed even when the light emitting element 12 is in the retracted position.

The diverging lens 50 is provided at the front of Kamerage häuses 10 such that it corresponds to a of Blitzlichtabstrahlelementes 12 of the converging lens 36, which is in the retracted position. The diverging lens 50 diffuses the contrast pattern is converged by the convergent lens 36 a. When the light emitting element 16 emits light when the light emitting element 12 is in the retracted position, the light is scattered by the diffusing lens 50 , so that the diffusing lens 50 is made brighter from the viewpoint of the object, at least in the film plane. Preferably, the diffusing lens 50 consists of a transparent or semi-transparent material, or a material that is colored by a clearly visible color (such as red). Alternatively, the lens can be replaced by a slit or the like.

The operation of this embodiment of the invention is as follows:
The mode selection switch SW2 is a switch for switching the flash emission modes. Each time the mode selection switch SW2 is turned on, the mode changes in a circular manner in the order of automatic light emission mode, forced light emission mode, emission inhibiting mode, automatic light emission mode. The automatic Lichtabstrahlmodus is a mode in which the emission of light of the flash according to the jekthelligkeit Whether detected by the photometry circuit 22 and the lens 23 is controlled data read from the lens ROM. The forced emission mode is a mode in which flash light is forcibly emitted regardless of the brightness of the object. The radiation inhibit mode is a mode in which the emission of flash light is inhibited regardless of the brightness of the object. The camera control circuit 20 sets the shutter speed in the forced emission mode when triggered to the flash synchronization speed when the calculated shutter speed is larger (shorter) than the flash synchronization speed.

The light emitting element 40 for emitting the auxiliary flash light and for indicating the self-timer operation emits the contrast pattern onto the object to assist the detection of the object distance by the AF unit 27 when the flash light emitting element is in the operating position. In the self-timer mode, the light emitting element 40 flashes when the light emitting element 12 is in the retracted position so that the start and end of the self-timer operation can be seen.

The camera constructed as above works as follows.

In the normal shooting mode, when the light measuring switch SWS is turned on to start the light measuring operation, it is judged whether or not the flash should be used in accordance with the calculated exposure factor. If it is determined that the flash should be used, the light emitting element 12 is moved to the operating position, and it is waited for the trigger switch SWR to be operated. When the trigger switch SWR is turned on, flash light is emitted from the light emitting element 12 to carry out the exposure at an optimal exposure value. After the exposure is finished, the Lichtabstrahlele element 12 is moved down to the retracted position.

In the self-timer mode, which is set by the self-timer switch SW1, the release operation starts when the release switch SWR is turned on. As a result, the light emitting element 40 flashes to indicate the start of the self-timer operation when the light emitting element is so in the retracted position. When the set time of the self-timer has expired, the exposure is effected at an optimal exposure value in accordance with the exposure factor obtained in the last light measuring operation just before the time expired. If it is determined that flash light should be emitted in accordance with the exposure factor obtained just before the expiration of the self-timer set time, or if the mode is the forced light emitting mode, the light emitting element 12 is moved to the operating position to make the light emitting element 40 blink to let to show the self-timer operation and to emit the auxiliary flash.

In order to enable in this embodiment of the invention, 40 to watch the blinking of the light emitting element as an auxiliary light emitter which is provided on the light emitting element 12, namely, even if the light emission element 12 is from the point of view of the object in the retracted position , the optical diffusion system 48 is provided in the wall of the camera housing 10 such that it is opposite to the light emitting element 40 . The light emitting element 40 blinks in the self-timer, when the light emitting element is in the retracted position 12, and the Self-timer can solver operation accordingly be visually confirmed without provision of an additional light emitting element, which is separate from the light emitting element 40, or protrude tion in its operating Posi without the light emitting element 12 allow.

The development of the invention is not limited to the exemplary embodiment described. For example, the material from which the diffuser plate 50 is made and its shape may be optional. The arrangement of the diffusion plate 50 can be varied according to the condenser lens 36 a of the light beam element 12 . It is possible to provide a light emitting element for displaying the self-timer drive separately from the light emitting element for emitting the auxiliary light in the light emitting element. The first and the second frequency with which the light emitting element flashes can optionally be selected.

As can be seen from the previous discussion, can self-timer photography visually of the object off by actuating the self-timer display element be confirmed in self-timer mode while the Flash light emitting element in the withdrawn position tion is left because the self-timer indicator, that can be seen from the side of the object, is provided in the flash emitting element that between the withdrawn and the operating positions tion moves.

If the self-timer indicator is also used as an auxiliary Light emitting element can also be used according to the invention the number of components used be reduced, what to realize the compact and simple camera control circuit leads.

Claims (11)

1. flash control device for a camera with built-in, extendable into an operating position flash unit ( 12 ) and with at least two flash modes, namely an automatic light emitting mode in which a flash light can only be emitted if by a control unit ( 20 ) in Dependency on object brightness data determined shutter speed falls below a certain limit, and a forced light emission mode in which a flash light can be emitted with a flash synchronization shutter speed, characterized in that while the camera is in the automatic light emission mode and the flash unit ( 12 ) Operating position, the control unit ( 20 ) activates the forced light emission mode by switching it off and then switching on a light measuring switch (SWS). 2. Flash control device according to claim 1, characterized in that a detection device (SW4) is provided to detect whether the flash device ( 12 ) is in the operating position. 3. Device according to one of the preceding claims, characterized in that the camera has a Lichtmeßeinrich device and that the control device ( 20 ) controls the flash unit ( 12 ) with the aid of a drive device ( 13 , 14 , 15 , 16 , 17 ) in the operating position when the object brightness detected with the aid of the light measuring device ( 22 ) is below a predetermined value. 4. Device according to one of the preceding claims, characterized in that the camera a Lichtmeßeinrich device and an exposure control device for a set an at least one shutter speed containing exposure factor corresponding to the object brightness detected by the light measuring device and that the control device ( 20 ) the flash unit ( 12 ) with the aid of a drive device ( 13 , 14 , 15 , 16 , 17 ) controls the loading position when the shutter speed obtained from the exposure control device is below a predetermined value. 5. Device according to one of the preceding claims, characterized in that the control device ( 20 ) sets the shutter speed to the Blitzsynchronisationsge speed when the built-in flash unit ( 12 ) emits light. 6. Device according to one of the preceding claims, characterized in that the control device ( 20 ) prevents the built-in flash unit ( 12 ) from emitting light when the detection device (SW4) does not detect that the flash ( 12 ) is in the operating position and that the control device ( 20 ) then adjusts the exposure factor in accordance with the object brightness detected by the light measuring device. 7. Device according to one of the preceding claims, characterized in that the control unit ( 20 ), when a removable external flash is attached to the camera, causes both the built-in ( 12 ) and the external flash to emit light. 8. Device according to claim 7, characterized in that the control device ( 20 ) prevents the built-in flash ( 12 ) from emitting light when the detection device (SW4) does not detect that the built-in flash ( 12 ) is in the operating position, so that only flash from the external flash attached to the camera is emitted. 9. Device according to one of the preceding claims, characterized by a display device ( 29 ) for separable display of the automatic light emission mode and the forced light emission mode. 10. Flash control device according to one of the preceding claims for a camera with an auxiliary light source ( 37 , 40 ) for projecting a light pattern onto a record of the object, the built-in flash unit ( 12 ) and the light exit point ( 48 ) of the auxiliary light source ( 40 ) in a Camera housing arranged flash housing part are arranged and can be extended together into an operating position, characterized in that the camera has a self-releasing mode and the auxiliary light source ( 40 ) is provided as an optical display device ( 40 ) for the self-releasing operation. 11. Flash control device according to one of the preceding claims, wherein the camera has a display device ( 37 , 38 , 40 , 48 ) for displaying a self-timer operation, characterized in that the display device ( 37 , 38 , 40 , 48 ) for the self-timer mode together with the flash unit ( 12 ) is arranged in an extendable flash housing part of the camera housing and that the camera housing is designed in such a way ( 50 ) that the display device is visible from an object to be recorded when the flash housing part is not extended.