KR19980022103A - Film transfer device and method of aps camera - Google Patents

Abstract

The present invention relates to a film transfer device and method of the ASP camera, the film perforation detection means for detecting the perforations formed on the film and outputs the corresponding electrical signal and the transfer error or battery replacement after the film transfer operation is started Occurs, the film perforation detecting means outputs a signal according to perforation detection and then measures a time for outputting a signal according to unperformed detection, and then the measured time is less than or equal to a set value. And the operation control means for controlling the film transfer operation by outputting the corresponding signal so that the film transfer is terminated at the time when the state of the signal is changed after the signal according to the perforation detection is output from the perforation detection means again; The output from the means sends the film to its position in accordance with the signal. It includes a conveying means, and even if a conveyance error or battery replacement occurs during film conveying, the film is taken from the next frame after the frame taken or one frame skipped, thereby preventing film wastage and efficient use of the film. It is possible.

Description

Film transfer device and method of aps camera

1 is a block diagram of a conventional 35mm film

2 is a block diagram of a film used in the ASP camera

Figure 3 is a block diagram of a film conveying apparatus of the ASP camera according to an embodiment of the present invention

Figure 4 is a detailed circuit diagram of the film perforation detection unit according to an embodiment of the present invention

5 is a mounting state of the film perforation detection unit according to an embodiment of the present invention

6 is an output signal waveform diagram of the film perforation detection unit according to an embodiment of the present invention

7 is an operation flowchart of a film transfer method of the ASP camera according to an embodiment of the present invention.

8 is a signal waveform diagram of the film perforation detection unit according to another embodiment of the present invention

9 is an operation flowchart of a film transfer method of an APS camera according to another embodiment of the present invention.

The present invention relates to a film transfer device and method of an Advanced Photo System (APS) camera, and more specifically, to detect perforations formed on the film for an APS camera using an optical sensor, and to detect perforation. The present invention relates to a film transfer device of an ASP camera and a method for comparing the output signal state of the optical sensor output according to the film transfer operation accordingly.

1 is a block diagram of a conventional 35mm film, Figure 2 is a block diagram of a film used in the ASP camera.

In general, the film used in the current camera is a 35mm film, as shown in Figure 1 attached to the perforation (perforation) is formed on the top and bottom of the film.

About eight perforations are formed in one frame of the film, and the loading and conveying operation of the film is controlled according to the perforation.

In the conventional camera, when a film transfer operation is started after photographing is performed as the release button is operated, a separate light sensor starts counting the film perforation.

When eight perforations are counted after the film transfer operation starts, it is determined that one frame of film has been transferred, and the film transfer operation is terminated, and the film stops at the next frame to be photographed. Since it is not supposed to be, when a malfunction occurs during film transfer, a problem arises in that the exposed images overlap.

In addition, if the film transfer operation is stopped due to external influences during film transfer, an overload occurs in the film transfer motor, and accordingly, the control device determines that the film shooting is completed and performs a film rewinding operation. The problem arises that the film is not used efficiently and is wasted.

However, various types of films other than the 35 mm film are used in the APE camera, which is multifunctional according to the diversification of information and user desire.

Film used in the ASP camera is the same as the conventional 35mm film is formed on the upper portion of the film, as shown in Figure 2 attached, but only about two perforations are formed in one frame of the film.

That is, the first perforation for notifying the beginning of one frame of film and the second perforation for notifying the end of one frame are formed at the beginning and the end, respectively.

Accordingly, an object of the present invention is to provide an AP camera for accurately transferring a film to a corresponding position even when an external influence or malfunction occurs during film transfer of an ASP camera using a film having two perforations formed therein. An object of the present invention is to provide a film transfer device and a method thereof.

The composition of the present invention for achieving the above object is a film perforation detection means for detecting a perforation formed on the film and outputs an electrical signal corresponding to the film and the film if the transfer error or battery replacement after the film transfer operation is started The perforation detecting means measures the time at which the signal according to the perforation detection is output and then outputs the signal according to the undetected perforation, and if the measured time is less than or equal to the set value, the perforation detecting means again. A signal according to perforation detection is outputted from the controller according to the motion control means for controlling the film transfer operation by outputting the corresponding signal so that the film transfer is terminated when the state of the signal is changed, and according to the signal output from the motion control means. Including film conveying means for conveying the film to the corresponding position Is done.

Another aspect of the present invention for achieving the above object is to determine whether the transfer error or battery replacement after the film transfer is started, and the perforation detection from the film perforation detection means in the case of a winding error or battery replacement Measuring the time at which the signal according to unperformation is output after the signal is output, comparing the measured time with the set value, and again if the measured time is less than or equal to the set value. And outputting a signal according to perforation detection from the film perforation detecting means and ending the film conveying operation at a time when the state of the signal is changed. Another configuration of the present invention for achieving the above object is a film perforation detection means for detecting the perforations formed on the film and outputs an electrical signal corresponding thereto and when a transfer error or battery replacement occurs after the film transfer operation is started. Measure the time at which the signal according to the unperformed perforation is output from the film perforation sensing means to set the first time, and after the transfer error or the battery replacement occurs, the perforation undetected from the perforation sensing means The time at which the signal is output is measured and set as the second time, and when the first time is greater than or equal to the second time, a signal according to perforation detection is output from the perforation sensing means, and then the signal state is changed. This function outputs the signal to stop the film transfer and eliminates the film transfer operation. And a film conveying means for conveying the film to the corresponding position according to the motion control means for disabling and the signal output from the motion control means.

Another aspect of the present invention for achieving the above object is to measure the time that the signal according to the perforation undetected in the film perforation detection means from the beginning of the film transfer until the transfer error or the battery replacement occurs to determine the first Setting the time to a second time after the transfer error or the battery replacement occurs and measuring the time at which the signal according to the perforation is not detected from the film perforation detecting means and setting it to the second time and the first measured Comparing the time with the second time, and when the first time is greater than or equal to the second time, the film transfer is performed at a time when the signal state is changed after the signal according to the perforation detection is output from the perforation sensing means. Including the step of terminating.

With the above configuration, the most preferred embodiment by which those skilled in the art can easily implement the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram illustrating a film conveying apparatus of an APS camera according to an embodiment of the present invention, FIG. 4 is a detailed circuit diagram of a film perforation sensing unit according to an embodiment of the present invention, and FIG. 5 is an embodiment of the present invention. Figure 6 is a mounting state of the film perforation detection unit, Figure 6 is an output signal waveform diagram of the film perforation detection unit according to an embodiment of the present invention, Figure 7 is a film transfer method of the ASP camera according to an embodiment of the present invention Operation flow chart.

As shown in Figure 3 attached to the configuration of the film transfer device of the APS camera according to an embodiment of the present invention, by firing a constant light to the position where the film perforation is formed to detect the light passing through the film corresponding thereto A film perforation detector 10 for outputting a pulse signal, an operation controller 20 for controlling a film transfer operation according to a pulse signal applied to an output terminal of the film perforation detector 10, and the operation It is connected to the output terminal of the control unit 20 is made of a film transfer unit 30 to perform a film transfer operation by driving a film motor.

As shown in FIG. 4, the film perforation sensing unit 10 according to the embodiment of the present invention includes a first sensing unit 11 mounted at a predetermined interval at a position corresponding to the film perforation, and It consists of two sensing parts 13.

The film perforation sensing unit 10 is formed of an optical sensor as shown in FIG. 5, and the first sensing unit 21 and the second sensing unit 23 each include a photodiode and a photo transistor. The photo coupler 111 and 131 and the signal output units 113 and 133 which are driven according to the signals output from the photo couplers 111 and 131 and output corresponding electric signals.

The action of the film transfer device of the ASP camera according to the embodiment of the present invention by the above configuration is as follows.

When the photographing operation is performed and the image information corresponding to the subject is recorded on the film, the operation control unit 20 performs the film conveying operation according to the routine shown in FIG. 7.

When the shooting is completed, the operation control unit 20 drives the film transfer unit 30 to transfer the film of one frame photographed. The film transfer unit 30 starts the film transfer operation by rotating the film motor M forward (S110).

In this case, the film perforation detection unit 10 continuously emits a predetermined amount of light to a position where the perforation of the film is formed, and then receives the light passing through the perforation and outputs a corresponding pulse signal to the operation control unit 20. And outputs (S120).

As the film transfer operation is performed, the state of the pulse signal output from the film perforation detection unit 10 is changed. That is, when the light emitted from the film perforation detection unit 10 is incident to the portion where the perforation is formed, the emitted light passes through the perforation and is received by the film perforation detection unit 10. When light is incident on a portion where the film perforation is not formed, the light is reflected by the film, and thus the signal state output from the film perforation detection unit 10 is changed depending on whether light is received.

Therefore, when the photodiode D1 of the photocoupler 111 and 131 emits a certain amount of light to the film and then inputs light to the base terminals of the phototransistors T1 and T3 again, the transistors T2 and T4 are turned on as the port transistor is turned on. ) Is turned on and a high level signal corresponding thereto is output to the operation controller 20.

However, when light is not incident on the base terminals of the photo transistors T1 and T3, the photo transistors T1 and T3 are turned off, so that the transistors T2 and T4 are turned off and correspondingly have low level signals. Is output to the operation control unit 20.

In the exemplary embodiment of the present invention, a low level signal is output when the film perforation is detected, and a high level signal is output when the film perforation is not detected, but is not limited thereto.

The operation control unit 20 starts the film transfer operation of one frame by driving the film transfer unit 30, and then determines whether a feeding error occurs according to a signal output from the film perforation detection unit 10. In addition, it is determined whether the camera battery of the user is replaced (S130). For example, if no signal is output from the film perforation detection unit 10 after the film transfer is started, or the state of the output signal is not changed, it is determined that a transfer error has occurred, and power is not supplied again. If the power is supplied, it is determined that the user has replaced the battery.

When a transfer error or battery replacement occurs during film transfer, the 1-frame transfer operation is controlled according to the output time of the perforation detection signal as follows.

When the transfer error or the battery replacement occurs, the operation control unit 20 outputs the low level L signal according to the perforation detection from the film perforation detection unit 10 and then the high level according to the unperformed perforation. The time at which the H signal is output is measured and its value is set to the first time Tb1 (S140 to S150).

Next, in order to determine whether the film 1 frame transfer is completed, the maximum setting value of the first time Tb1 preset in the operation controller 20 is compared with the first time Tb1 measured above (S160), When the first time Tb1 is less than or equal to the maximum set value, the film transfer operation is terminated according to the output state of the signal according to the next perforation detection.

In other words, when the first time Tb1 is less than or equal to the maximum setting value, the low level L signal according to the perforation detection is output from the film perforation detector 10, and then the low level L signal is output. The film 1 frame transfer operation is terminated at the time when the signal is changed to the H signal.

Therefore, as shown in FIG. 6, when the film has a transfer error or battery replacement in the first section A1 during transport, one-frame film transfer is terminated at the first point I1, and the second section B1. When the transfer error or the battery replacement occurs in the second frame (II1) by the end of the l-frame film transfer, the film is stopped at the point where one frame is skipped and the next frame starts.

However, in the case of normal conveyance in which no conveying error does not occur or the battery is not replaced, after the film conveying is started, the low level L signal according to the second perforation detection is output from the film perforation detecting unit 10, Film transfer is terminated when the low level L signal is changed to a high level H signal.

Therefore, during normal film transfer, the film stops at the position where the frame starts after one frame.

According to the above embodiment, when film transfer is normally performed, shooting is possible after the photographed frame. When a transfer error or battery replacement occurs, only one frame of film cannot be used and the remaining film that is not exposed can be used efficiently. Can be.

Next will be described the operation of the film transfer device of the ASP camera according to another embodiment of the present invention.

8 is a signal waveform diagram of the film perforation detection unit according to another embodiment of the present invention, Figure 9 is a flow chart of the film transfer method of the ASP camera according to another embodiment of the present invention.

Since the configuration of the film transfer device of the ASP camera according to another embodiment of the present invention is the same as the configuration of the above-described embodiment, the component description is omitted.

As shown in FIG. 9, when film transfer is started after photographing is performed, the operation control unit 20 outputs a high level H signal corresponding to the case where the perforation is not detected from the film perforation detection unit 10. The counting time is started (S310 to S320). Next, it is determined whether a transport error or battery replacement occurs (S330). When a transport error or battery replacement occurs, the film perforation detection unit 10 starts outputting a high level H signal, and then the transport error or battery is replaced. Until the replacement occurs, the time at which the high level H signal is output is measured, and the value is set as the first time (S330 to S340).

After measuring the first time in the above, after the occurrence of the winding error or battery replacement again, the time measured by the high-level H signal output from the film perforation detector 10 is set to the second time (S350).

As described above, after measuring the time at which the high level H signal is output from the film perforation detector 10 before and after the winding error or the battery replacement, the operation controller 20 measures the measured first The time and the second time is compared and determined (S360).

When the first time is greater than or equal to the second time, the operation control unit 20 determines that the film transfer is normally performed, and then the low level L signal is output from the film perforation detection unit 10, and then the low level is output. The film transfer operation is terminated at a time point I2 at which the L signal is changed to the high level H signal (S 370).

For example, in the case where film transfer is normally performed, the first time becomes Ta2 + b2, the second time becomes Tc2, and Ta2 + b2? Tc2 is established, thus completing the film transport operation as described above.

However, when the first time is less than the second time, the operation control unit 20 sets the currently measured second time as the first time and again, from the film perforation detection unit 10, at a high level according to unperformed perforation. The time at which the H signal is output is measured and set as the second time, and then the film is transferred to the point where the first time becomes the second time or more. Then, when the first time becomes the second time or more, the low level L signal is generated. The film transfer operation is terminated at the time when the signal is changed to the high level H signal (S380).

As shown in FIG. 8, when a film transfer error occurs in the first section A2, the first time becomes Ta2, the second time becomes Tb2, and the first time becomes greater than or equal to the second time. 20 ends the film conveying operation at a time point I2 at which the low level L signal is changed to the high level H signal.

When an error occurs in the second section B2 instead of the first section A2, the first time becomes Tb2, the second time becomes Tc2, and the first time becomes smaller than the second time, thereby operating control 20 ) Sets the second time Tc2 to the first time, and then measures the time for which the high level signal is output and sets it to the second time.

However, since the first time becomes Tc2, the second time becomes Td2, and the first time becomes smaller than the second time, the operation control unit 20 sets the second time Td2 to the first time again, and then again the high level signal. Measure the output time is set to the second time.

Accordingly, when the first time becomes Td2, the second time becomes Te2, and the first time becomes more than the second time, the operation controller 20 changes the time from the low level L signal to the high level H signal (II2). Ends the film transfer operation.

In addition, when a film transfer error occurs in the third section C3, the first time becomes Tc2, the second time becomes Td2, and the first time becomes smaller than the second time, so that the operation control unit 20 performs the second time. The Td2 is set as the first time, and the second time is measured by measuring the time for outputting the high level signal.

Therefore, when the first time becomes Td2, the second time becomes Te2, and the first time becomes more than the second time, the operation controller 20 changes the time from the low level L signal to the high level H signal (II2). Ends the film transfer operation.

In addition, when a film transfer error occurs in the fourth section D2, the first time becomes Td2, the second time becomes Te2, and the first time becomes greater than or equal to the second time. The film transfer operation is terminated at the time II2 when the signal is changed to the high level H signal.

As described above, in the ASP camera according to the exemplary embodiment of the present invention, even if a transfer error or a battery change occurs during film transfer, the camera takes a picture from the next frame after skipping the next frame or one frame after the taken frame. It is possible to provide an apparatus and a method for transporting a film of an APS camera, which has an effect of preventing film waste and enabling efficient use of a film.

Claims (8)

The film perforation means for detecting perforations formed in the film and outputting the corresponding electrical signals, and if a transfer error or battery replacement occurs after the film transfer operation is started, the signal according to the perforation detection in the film perforation detection means. After measuring the time at which the signal according to the undetected perforation is output after outputting, measure the time when the measured time is less than or equal to the set value. An operation control means for controlling the film transfer operation by outputting a corresponding signal so that the film transfer is terminated when the state of the signal is changed, and a film transfer means for transferring the film to a corresponding position according to the signal output from the operation control means. Film transfer device of the APS camera comprising a. According to claim 1, wherein the operation control means, if a transfer error or battery replacement does not occur after the film transfer is started, the signal according to the perforation detection is output twice from the film perforation detection means, two The film transfer device of the ASP camera to output the signal so that the film transfer is terminated when the state of the second output signal is changed. Film perforation detection means for detecting perforations formed on the film and outputting the corresponding electrical signals, and the perforation undetected by the film perforation detection means from the start of the film transfer operation until the transfer error or battery replacement. The time when the signal is output is measured and set as the first time, and after the transfer error or the battery replacement occurs, the time when the signal according to the unperformed detection is output from the perforation sensing means is set as the second time Next, when the first time is greater than or equal to the second time, a signal according to perforation detection is output from the perforation sensing means, and then the corresponding signal is output so that film transfer is terminated at the time when the signal state is changed. In motion control means for controlling an operation and the motion control means And a film conveying means for conveying the film to a corresponding position according to the output signal. The method according to claim 3, wherein the operation control means sets the second time currently measured as the first time when the first time is less than the second time, and detects no perforation from the film perforation sensing means again. After measuring the time that the signal output according to the set to the second time, the operation is repeated until the first time becomes a second time or more, and when the first time is more than the second time the perforated The film transfer device of the ASP camera to control the film transfer operation by outputting the corresponding signal so that the film transfer is terminated at the time when the signal state is changed after outputting a signal according to the perforation detection from the migration detection means. Determining whether a transport error or battery replacement has occurred after the film transfer has started, and when a transport error or battery replacement has occurred, a signal according to perforation detection is output from the film perforation detection means, and then a signal according to no perforation detection. Measuring the output time and comparing the measured time with the set value, and if the measured time is less than or equal to the set value, the signal according to the perforation detection is output from the film perforation sensing means again. And ending the film transfer operation at the time when the state of the signal is changed. The method according to claim 5, wherein if no transfer error or battery replacement occurs after the film transfer is started, the signal according to perforation detection is output twice from the film perforation sensing means, and then the state of the second output signal is Film transfer method of the APS camera further comprises the step of ending the film transfer at a variable time point, The film perforation detection means measures the time at which the signal according to the perforation is not output from the film perforation means until the transfer error or the battery replacement occurs, and sets it as the first time. Next, measuring the time at which the signal according to the unperformed perforation is output from the film perforation sensing means is set to the second time, and comparing and determining the measured first time and the second time. If the first time is greater than or equal to the second time, a film transfer from the perforation detection means, and outputting a signal according to perforation detection, and ending the film transfer at the time when the signal state is changed. Way. 8. The method of claim 7, wherein in the comparing and determining of the first time and the second time, when the first time is less than the second time, the currently measured second time is set as the first time, and again. Measuring the time at which the signal according to the perforation undetected from the film perforation sensing means is set to the second time, and if the first time is less than the second time, repeating the operation and performing the first time When the second time or more, the film transfer method of the AP camera further comprises the step of outputting a signal according to the perforation detection from the film perforation detection means and then ending the film transfer at the time when the signal state is changed .