JP2666141C - - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an automatic film rewinding device used for a camera for photographing and the like. 2. Description of the Related Art There is widely known a film rewinding device in which a film is wound up every time photographing is performed, and when the winding is completed, the film is rewinded by detection. In many cases, this type of rewinding device is controlled by a CPU built in the camera, and starts the rewinding motor in response to the detection of the end of the film or another switch operation, so that all of the film is caught in the cartridge. To stop the rewinding operation. "Problems to be Solved by the Invention" In the above-described film rewinding device controlled by the CPU, when the power supply from the battery power supply installed in the camera is lost, the rewinding operation naturally stops. Therefore, when the power supply of the battery power supply is lost during the film rewinding operation, for example, when the battery power supply is dropped and the power supply is cut off, or when the battery power is exhausted, the film rewinding is not completed and the film rewinding is not completed. Transfer is interrupted. In this case, it is necessary for the conventional rewinding device to memorize the above-mentioned state, and to restart the rewinding by manually operating the rewinding button after the supply of the power to the power supply has been normally corrected. there were. In some cases, when the above state is reached, a warning is displayed to indicate that rewinding is in progress. However, after normalization of arrow feeding, rewinding is manually restarted. "Means for Solving the Problems" In view of the above-described problems, the present invention provides a film automatic winding device capable of immediately starting a suspended film rewind only by normalizing the power supply of a battery power supply. The purpose is to develop a return device. Therefore, in the present invention, there is provided an automatic film rewinding device that detects the end of winding and automatically rewinds, and detects the end of rewinding and stops when the control of the control circuit responds to the check of the film perforation. A camera provided with a memory means for storing the rewinding state information as data information immediately before the film rewinding operation is performed in accordance with the check of the film perforation. The control circuit is attached to the control circuit as a memory means for storing and maintaining data information irrespective of power supply or interruption of a battery power supply loaded in the battery power supply. When the control circuit interrupts rewinding due to loss of power supply, supply of power again. Rewind read from the memory means as data information Moved immediately rewinding operation in accordance with status information, we propose a film automatic rewinding device, characterized in that to terminate the rewinding of the film. [Operation] The film rewind state information is stored in the memory means as data information immediately before the rewind operation is performed. This memory means stores and maintains the above-mentioned data information irrespective of the power supply or cutoff of the battery power supply loaded in the camera. If the power supply to the control circuit is lost due to the battery power being dropped or the battery power being consumed while the film is being rewound, the rewinding operation will be stopped. Reads the data information from the memory means and immediately starts the rewinding operation according to the rewinding state information. "Example" Next, an example of the present invention will be described with reference to the drawings. FIG. 1 is a partial block diagram of an in-camera circuit showing an example in which an automatic film rewinding device according to the present invention is applied to a single-lens reflex camera having a lens shutter. In this figure, reference numeral 11 denotes a CPU for performing sequence control of the entire camera.
, 12 denote memory / display circuits, which are connected by four signal lines 13 to 16 to transmit and receive data in units of 8 bits in serial. The memory / display circuit 12 stores data sent from the CPU 11 and controls the camera display unit by inputting a command signal from the CPU 11. The memory / display circuit 12 sends a Low voltage signal to the DC-DC converter 19 via the signal line 18 in response to the closing of the power ON switch 17. The DC-DC converter 19 receives the Low voltage signal, starts operation, and controls the power supplied to the CPU 11 and the motor drive circuit 20. Normally, the battery 11 supplies power to the CPU 11 and the memory / display circuit 12. This battery power source 21 is composed of a battery loaded in a battery box of the camera. When the battery power supply 21 is dropped or power is consumed, the memory / display circuit 12 is supplied with power from the backup battery power supply 22. The switch 23 attached to the CPU 11 detects the movement of the film, and checks the perforation to detect the winding state of the film. The automatic film rewinding device operates the motor drive circuit 20 in response to the detection of the completion of film winding, and starts the rewinding motor.
Immediately before the start of the rewind motor, status information indicating that the motor is being rewound (for example, "00100000") is sent to the memory / display circuit 12 via the signal lines 13 to 16, and this status information is stored. Thereafter, the motor drive circuit 20 causes the CPU 1 to start the rewind motor.
1, the film is rewound. Rewinding of the film is detected by the switch 23. Since the switch 23 detects the perforation of the film, the CPU 11 determines whether the film is being rewound or the end of the rewound from the state of the change of the switch 23. For example, switch 2
If the fluctuation of 3 does not occur within 3 seconds, the CPU 11 sends a motor stop signal to the motor drive circuit 20 assuming that rewinding has been completed. Therefore, if the rewinding operation is normally performed, the rewinding motor stops with all of the film wound on the cartridge. After the rewinding of the film is completed, the CPU 11 sends information (
For example, “11100000” is sent to the memory / display circuit 12 and this state information is stored in the memory. If the battery power supply 21 drops for any reason while rewinding the film, C
Since the power of the PU 11 is turned off and the power supply to the motor drive circuit 20 is cut off, the rewind motor stops before the end of the film rewind. The power supply of the memory / display circuit 12 is cut off from the battery power supply 21, but is backed up by another battery power supply 22, so that the storage of the rewind state information is maintained. If a warning display indicating that rewinding is being performed is performed, the display can be performed similarly. When the battery power supply 21 is reloaded, the power ON switch 17 is closed.
The CPU 11 turns on the power, reads out the rewinding state information stored in the memory / display circuit 12, and detects the state immediately before the battery power supply 21 is dropped. As a result, the motor drive circuit 20 is controlled so as to immediately start the rewind motor, and automatically shifts to the rewind operation, thereby terminating the rewinding of the film. FIG. 2 is a flowchart showing the film rewinding operation of the CPU 11 described above. [Step ST1]: Start of winding is detected upon detection of completion of winding. [Step ST2]: It is determined whether or not the back cover is opened. Proceed to the next with the back cover closed. [Step ST3]: State information indicating that rewinding is in progress is stored in the memory / display circuit 12.
Send to [Step ST4]: The camera state is set. Specifically, the auto focus AF is set to the ∝ position, the ZOOM is set to the Wide position, and the shutter closing operation is performed. This type of camera is in the observation state when the shutter is opened and the mirror is lowered, and the film surface is shielded by the lowered mirror. The shutter is closed in order to prevent trouble when leakage occurs. [Step ST5]: A display signal during the rewind operation is sent to the memory / display circuit 12. [Step ST6]: Operate the motor drive circuit 20 to actually start the rewind operation. [Step ST7]: The time count is cleared for the next time count check. [Step ST8]: The perforations are counted, and it is checked whether or not the film count is counted down every four. If there are four, the next step [ST9
], And if the number does not become four, jump [ST9], [ST10], and [ST11] to [ST12]. [Step ST9]: The film count is decremented by one, and the progress of rewinding is displayed. [Step ST10]: Clear the perforation counter from “4” to “0”. [Step ST11]: The time counter for the next operation check is cleared again. [Step ST12]: It is checked whether three seconds have elapsed from the time count. If three seconds have elapsed, the process proceeds to [ST13]. If it does not reach 3 seconds, the operation proceeds to [ST19] to check the state of the back cover. [Step ST13]: The motor drive circuit 20 is controlled so as to stop the rewind motor. [Step ST14]: The film counter is cleared to zero. [Step ST15]: Send the rewind end state information to the memory / display circuit 12. [Step ST16]: A signal for clearing the display during rewinding and a signal for displaying the rewind end state are sent to the memory / display circuit 12. [Step ST17]: The film idle feeding operation is performed once (one frame) to bring the camera into the normal state. This is for the case where the film end is detected during the film winding operation in the automatic film rewinding operation. [Step ST18]: The shutter closed during rewinding in [ST4] is opened to return to normal, and the power is turned off. [Step ST19]: If the back cover is closed, return to [ST8] to continue the rewinding operation. If the back cover is opened (the back cover is opened during the rewinding operation) [ST20]
Proceed to. [Step ST20]: The motor drive circuit 20 is controlled so as to stop the rewind motor. [Step ST21]: Data is transmitted to the memory / display circuit 12 to turn off the power so that the rewind state information is changed to the normal state. The CPU 11 that operates as described above [ST4] to [ST14] or [ST14].
4] to [ST19], when the battery power supply 21 drops out and the power supply is cut off, the battery power supply 21 is set again and the power is turned on, so that the memory / display circuit 1 is turned on.
Since the rewind status information is read out from No. 2, the rewind operation is immediately restarted. In the above-described embodiment, the case where the battery power supply 21 is dropped has been described. However, when the power supply of the battery power supply 21 is lost, such as when the battery power is consumed during film rewinding, the power supply is normally performed. The rewinding operation starts in the same manner. In the above embodiment, the memory unit backed up by the battery power supply 22 has been described. However, a nonvolatile memory may be used instead of the memory unit. As can be understood from the above description, when the camera operates, if the status information during the operation is sent from the CPU 11 to the memory / display circuit 12 and stored in advance immediately before the operation of the camera, the film winding is possible. The present invention can be applied to a camera operation other than the returning operation, and the present invention is not limited to a single-lens reflex camera provided with a lens shutter, and can be similarly implemented. As described above, the automatic film rewinding device according to the present invention is capable of reducing the power supply when the battery power is lost or the battery power is consumed during the rewinding operation and the power supply is lost. By normalizing the supply, the control circuit recovers to the state immediately before the power supply disappears, and immediately starts the rewind operation.Therefore, there is no need to manually operate the rewind button as in the conventional device, and the film is not required. The rewinding is automatically terminated, resulting in a very convenient automatic film rewinding device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partial block diagram of a circuit in a camera provided with an automatic film rewinding device according to the present invention, and FIG. 2 shows a film rewinding operation of a CPU provided in the camera internal circuit. It is a flowchart shown. 11 CPU CPU 12 Memory / display circuit 17 Power ON switch 19 DC-DC converter 20 Motor drive circuit 21 Camera mounted Battery power supply 22 composed of a battery 22 Battery power supply for backup 23 Switch for detecting film transfer

Claims (1)

Claims: An automatic film rewinding device that detects the end of winding and automatically rewinds, and detects the end of rewinding and stops when detecting the end of rewinding, under the control of a control circuit in response to the check of the film perforation. A camera provided with a memory means for storing the rewinding state information as data information immediately before the film rewinding operation is performed in accordance with the check of the film perforation. The control circuit is attached to the control circuit as a memory means for storing and maintaining data information irrespective of power supply or interruption of a battery power supply loaded in the battery power supply. When the control circuit interrupts rewinding due to loss of power supply, supply of power again. The rewind state read out from the memory means as data information An automatic film rewinding apparatus for immediately rewinding according to status information and terminating rewinding of the film.