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Claims  |
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We claim:
1. A camera system comprising:
first film means having a cartridge, a film, and a magnetic recording
medium;
second film means having a cartridge and a cleaning film for cleaning a
magnetic head; and
a camera into which said first and second film means may be loaded
alternatively and including a magnetic head, exposure means for exposing
the film of said first film means, winding means for winding the film from
the cartridge of a loaded film means, rewinding means for rewinding the
film of a loaded film means back to the cartridge thereof, detection means
for detecting the loading of said second film means into said camera to
produce a detection signal, and control means including means for
inhibiting said exposure means in response to said detection signal.
2. A camera system according to claim 1, wherein said control means
includes means that causes said winding means to wind the film from the
cartridge of said second film means in response to said detection signal
and then causes said rewinding means to rewind the film of the second film
means back to the cartridge thereof.
3. A camera system according to claim 1, wherein said second film means has
a magnetic recording medium, and said control means includes means that
causes said magnetic head to record data designating the number of times
of usage of the cleaning film on said magnetic recording medium of said
second film means when said second film means is loaded in the camera.
4. A camera system according to claim 3, wherein said control means
includes means that causes said magnetic head to read the data recorded on
the magnetic recording medium of said second film means in response to the
loading of said second film means in said camera, and when the number of
times of usage designated by the read data is smaller than a predetermined
number, causes said magnetic head to record data on the magnetic recording
medium of said second film means to designate an additional time of usage
of the cleaning film.
5. A camera capable of alternatively loading therein first film means
having a film, a magnetic recording medium and a cartridge, and second
film means having a cartridge and a cleaning film for cleaning a magnetic
head, comprising:
a magnetic head for recording data on said magnetic recording medium;
exposure means for exposing the film of said first film means;
winding means for winding the film from the cartridge of the loaded film
means;
rewinding means for rewinding the film of the loaded film means back to the
cartridge thereof;
detection means for detecting that the film means loaded in said camera is
said second film means to produce a detection signal; and
control means including means for inhibiting said exposure means in
response to said detection signal.
6. A camera according to claim 5, wherein said control means includes means
that causes said winding means to wind the film from the cartridge of said
second film means in response to said detection signal and then causes
said rewinding means to rewind said film of said second film means back to
the cartridge thereof.
7. A camera according to claim 5, wherein said second film means has a
magnetic recording medium, and said control means includes means that
causes said magnetic head to record data designating the number of times
of usage of the cleaning film on said magnetic recording medium of said
second film means when said second film means is loaded in the camera.
8. A camera according to claim 7, wherein said control means includes means
that causes said magnetic head to read the data recorded on the magnetic
recording medium of said second film means in response to the loading of
said second film means in said camera, and when the number of times of
usage designated by the read data is smaller than a predetermined number,
causes said magnetic head to record data on the magnetic recording medium
of said second film means to designate an additional time of usage of the
cleaning film.
9. A film unit loadable in a camera having a magnetic head, comprising a
cartridge containing a cleaning film having cleaning means disposed
thereon for cleaning said magnetic head, said cartridge having means
thereon capable of detection by said camera for informing said camera that
a cartridge containing cleaning film is loaded therein.
10. A film unit according to claim 9, wherein said cleaning film has a
magnetic medium thereon capable of recording data by said magnetic head.
11. A film unit loadable in a camera having a magnetic head, comprising a
cartridge containing a cleaning film having cleaning means disposed
thereon for cleaning said magnetic head, and information means capable of
detection by said camera for informing said camera that a cartridge
containing cleaning film is loaded therein.
12. A camera capable of alternatively loading therein a first film means
having a film, a magnetic recording medium and a cartridge, and a second
film means having a cartridge and a cleaning film for cleaning a magnetic
head, comprising:
a magnetic head for recording data on said magnetic recording medium;
exposure means for exposing the film of said first film means;
winding means for winding the film from the cartridge of a loaded film
means;
rewinding means for rewinding the film of the loaded film means back to the
cartridge thereof;
detection means for detecting that the film means loaded in said camera is
said first film means or said second film means, and for producing a
detection signal indicative of the loaded film means;
control means for causing said winding means to wind the film from the
cartridge of said first film means by a predetermined amount prior to an
exposure operation of said exposure means when said detection signal
indicates that said first film means is loaded in said camera, said
control means causing said winding means to wind the film from the
cartridge of said second film means by an amount larger than said
predetermined amount when said detection signal indicates that said second
film means is loaded in said camera.
13. A camera according to claim 12, wherein said control means causes said
winding means to wind the film from the cartridge of said second film
means until said cleaning film has been pulled out to an end thereof when
said second film means is loaded in said camera.
14. A camera capable of alternatively loading therein a first film means
having a film, a magnetic recording medium and a cartridge, and a second
film means having a cartridge and a cleaning film for cleaning a magnetic
head, comprising:
a magnetic head for recording data on said magnetic recording medium;
exposure means for exposing the film of said first film means;
winding means for winding the film from the cartridge of a loaded film
means;
rewinding means for rewinding the film of the loaded film means back to the
cartridge thereof;
detection means for detecting that the film means loaded in said camera is
said first film means or said second film means, and for producing a
detection signal indicative of the loaded film means;
control means for causing said winding means to wind the film from the
cartridge of said first film means by a first predetermined amount prior
to an exposure operation of said exposure means when said detection signal
indicates that said first film means is loaded in said camera, said
control means causing said winding means to wind said cleaning film from
the cartridge of said second film means by a second amount and thereafter
causing said rewinding means to rewind said cleaning film back to the
cartridge of said second film means when said detection signal indicates
that said second film means is loaded in said camera. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a camera which can record information on a
magnetic recording medium formed on a silver salt film (hereinafter
referred to as a film), film means loadable to such a camera and a camera
system.
2. Related Background Art
In an 8 mm talkie, a magnetic track which is a magnetic recording medium is
formed on a film so that sound information is recorded as magnetic record
information. In a conventional camera, date and time information of
photographing is recorded on a film as optical record information by means
of optical imaging.
Recently, a camera which records information on a magnetic track formed on
a 35 mm film to allow recording of information other than optical record
information has been proposed.
However, because of contact between a magnetic head and a magnetic tape,
powders of magnetic material of the tape deposit on a surface of the
magnetic head after a certain period of use and this deteriorates a
recording characteristic.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a camera which has a
function of cleaning a magnetic head of the camera, film means and a
camera system.
As shown in FIG. 1A, a camera having a magnetic head in accordance with the
present invention comprises exposure control means 31 for effecting
conventional exposure control, film winding means 32, film rewinding means
33, film discriminating means 35 for discriminating that a loaded film is
a cleaning film and producing a discrimination signal, and control means
34 for enabling the exposure control means when the loaded film is a
conventional photographing film, and inhibiting the exposure control means
and causing the winding means 32 to wind the film and then causing the
rewinding means 33 to rewind the film when the loaded film is the cleaning
film.
As shown in FIG. 1B, the camera of the present invention further comprises
cleaning data recording and reproducing means 36 for storing the number of
times of cleaning performed by the winding and the rewinding of the film
into cleaning data record means 37 provided in the cleaning film or a
cartridge for accommodating the cleaning film.
When the discrimination signal indicates that the loaded film is the
cleaning film, the control means 34 inhibits the exposure control means
and causes the winding means 32 to wind the film and then causes the
rewinding means 33 to rewind the film. Accordingly, when the cleaning film
is loaded, the cleaning film is wound and then rewound so that the
cleaning is effected.
The number of times of cleaning is stored in the cleaning data record means
37 provided in the cleaning film or the cartridge for accommodating the
cleaning film. Accordingly, when the number of times of usage of the
cleaning film reaches a predetermined number, the cleaning may be
inhibited.
BRIEF DESCRIPTION OF THE DRAWINGS
FIGS. 1A and 1B schematically show the present invention,
FIG. 2 shows a structure of one embodiment of a camera having a magnetic
head in accordance with the present invnetion,
FIG. 3 shows an outer view of a cleaning cartridge in the embodiment,
FIG. 4 shows a circuit block diagram of the camera in the embodiment,
FIG. 5 shows an operation flow chart in the embodiment,
FIG. 6 shows an outer view of a cleaning cartridge in another embodiment,
and
FIG. 7 shows an operation flow chart in the other embodiment.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 2 shows a structure of one embodiment of a camera having a magnetic
head in accordance with the present invention. A camera itself is omitted
in the drawing and only internal elements are shown.
A film 2 loaded in a 35 mm film cartridge 1 is pulled out of the cartridge
and wrapped around a winding spool 4 in the camera. The winding of the
wrapped film 2 is effected by a winding motor 14. The rewinding of the
film 2 into the cartridge 1 is effected by a rewinding motor 13. The
control of the amounts of winding and rewinding of the film 2 and the
detection of the ends of winding and rewinding are effected by a
photo-coupler 3 which is disposed across the film 2. The photo-coupler 3
counts perforations 6 of the film 2. For example, one-frame winding is
detected by counting a predetermined number of perforations corresponding
to one frame by the photo-coupler 3. A condition in which the film 2 is no
longer pulled out of the cartridge 1, that is, the end of film, is
detected when the count of the photo-coupler 3 is not incremented in spite
of the rotation of the winding motor 14. The end of the rewinding is
detected in a similar manner.
Magnetic stripes 8 and 9 for recording information are provided at bottoms
of photographing frames 5 and 7 of the film 2, respectively, so that
information relating to the photographing frames 5 and 7 may be recorded
on the magnetic stripes 8 and 9. A magnetic head 10 is arranged to abut
against the film 2 at a position corresponding to the magnetic stripes 8
and 9. For example, when an object image is photographed on the frame 5
and the film 2 is wound by the winding motor 14, the magnetic stripe 8 for
the frame 5 is moved in contact with the magnetic head 10 so that
information is recorded by the magnetic head 10.
Type discrimination means 12 for discriminating the type of cartridge is
provided to abut against a predetermined portion of the cartridge 1. The
type discrimination means 12 has two terminals, one of which is grounded.
A portion 11 of the cartridge 1 shown by broken lines, which the two
terminals contact, is insulated. When the cartridge is loaded, the camera
first senses the status of the type discrimination means 12 to determine
an action to be taken. In the example shown in FIG. 2, a normal operation
is permitted.
FIG. 3 shows an outer view of a cleaning cartridge. A cleaning film 16 of a
predetermined length is loaded in the cleaning cartridge 15. The cleaning
film 16 is provided with known cleaning means 17 at a position to which
the magnetic head 10 of FIG. 2 abuts. The cleaning means 17 may be similar
to that of a cleaning tape for a conventional tape recorder. It has a
function of cleaning a surface of the magnetic head 10 and a function of
slightly abrading the surface. Conduction means 18 is provided on a side
surface of the cleaning cartridge 15. When the cleaning cartridge 15 is
loaded in the camera, the two terminals of the type discrimination means
12 contact the conduction means 18 and they are shorted so that the camera
can sense that the cleaning cartridge has been loaded.
FIG. 4 shows a circuit block diagram of the camera which uses the cleaning
cartridge 15. A CPU 30 is located at the center and it generates outputs
in accordance with input information to control the operations of the
camera.
The CPU 30 senses the loading of the cartridge 1 or the cleaning cartridge
15 by an on/off state of a loading detection switch FSW, and detects the
type of the loaded cartridge by the type discrimination means 12. The
feeding of the film 2 or the cleaning film 16 is sensed by the
photo-coupler 3. The operation of the camera is started in response to the
actuation of a release switch RSW.
The winding motor 14 is driven by a first driver DVR1 and the rewinding
motor 13 is driven by a second driver DVR2. The magnetic head 10 is driven
by a third driver DVR3. The drivers DVR1 and DVR2 merely supply drive
signals to the winding motor 14 and the rewinding motor 13, respectively,
in response to the output signal of the CPU 30, but the driver DVR3 not
only drives the magnetic head 10 to record information on the magnetic
stripe of the film but also reproduces the information recorded on the
magnetic stripe. Accordingly, signals are bilaterally transmitted between
the CPU 30 and the driver DVR3. Normal exposure operation is effected by
an exposure circuit EXP and various alarms and various exposure
information are displayed by a display circuit DSP.
FIG. 5 shows an operation flow chart in the camera shown in FIG. 2.
When the camera is powered on by turning on a switch (not shown), the
routine is started and the state of the loading detection switch FSW is
sensed (step 41), and the loading of the cartridge is determined (step
42). If the cartridge is not loaded, a normal operation including exposure
control of the camera is permitted and the process is terminated (step
52). When the normal operation is permitted, a conventional exposure
operation is permitted even without the cartridge to enable the check of
operation of the camera. On the other hand, when the loading of the
cartridge is detected in the step 42, memory means in the CPU 30 is
activated (step 43). The memory means stores historic data of the past
operations. An idle exposure signal is read from the historic data to
determine if the idle exposure has already been done or not (step 44). If
a decision that the idle exposure has been done is made, the normal
operation is permitted and the routine is terminated (step 52). This
indicates that the photographing operation may be effected because the
cartridge has been loaded and the idle exposure has been done. On the
other hand, if the decision in the step 44 is that the idle exposure has
not been done, the type discrimination means 12 is activated (step 45) to
determine whether the loaded cartridge is a conventional cartridge or a
cleaning cartridge (step 46). If the decision is that it is the
conventional cartridge, the photo-coupler 3 is activated (step 47) and the
driver DVR1 is activated to drive the winding motor 14 (step 48) to wrap
the film 2 around the spool 4. Whether the output of the photo-coupler 3
has reached a predetermined number n or not is determined (step 49). The
predetermined number n corresponds to the amount to permit the leading
edge of the film 2 to wrap around the spool 4. When the film feed amount
of the idle exposure reaches the predetermined number n in the step 49,
the driver DVR1 is deactivated to stop the winding motor 14 (step 50), and
an end of idle exposure signal is stored in the historic data in the
memory means of the CPU 30 (step 51), the normal operation is permitted
(step 52) and the routine is terminated.
On the other hand, if the decision in the step 46 is that the cleaning
cartridge is loaded, the photo-coupler 3 is activated (step 53) and the
driver DVR1 is activated (step 54). As a result, the cleaning film 16
pulled out of the cleaning cartridge 15 is wrapped around the spool 4
while it cleans the magnetic head 10. The cleaning is continued until the
count of the photo-coupler 3 is no longer outputted (step 55). This means
that the cleaning film 16 has been pulled out to the end, the feed of the
film is stopped, and the counting of the perforations 6 by the
photo-coupler 3 is no longer incremented. When the output of the
photo-coupler 3 disappears in the step 55, the driver DVR1 is deactivated
to stop the winding motor 14 (step 56). The driver DVR2 is activated to
drive the rewinding motor 13 (step 57) so that the cleaning film 16 wound
on the spool 4 is rewound back to the cleaning cartridge 15. The end of
the rewinding is detected by the stop of the output of the count of the
photo-coupler 3, as in the step 55 (step 58). When the end of the
rewinding is detected, the driver DVR2 is deactivated to stop the rotation
of the rewinding motor 13 (step 59). Then, the normal operation is
inhibited and the routine is terminated (step 60). The normal operation is
inhibited in the step 60 for preventing inadvertent normal photographing
operation because the cleaning cartridge is loaded and preventing the
abrasion of the magnetic head 10 by unnecessary cleaning operation.
FIG. 6 shows an outer view of a cleaning cartridge in another embodiment.
Like the cleaning cartridge shown in FIG. 3, it is provided with condition
means 24 on a side surface of a cartridge 20. A cleaning film 21 is
provided with a magnetic stripe 22 in addition to cleaning means 23. The
number of times of cleaning is stored in the magnetic stripe 22.
An operation of the camera when the cleaning cartridge shown in FIG. 6 is
used is now explained with reference to FIG. 7. In FIG. 7, those steps
which are identical to those of FIG. 5 are omitted, and only the steps
after a step 46 which are different from FIG. 5 are shown.
In the step 46, if it is determined that the loaded cartridge is a cleaning
cartridge, the photo-coupler 3 is activated (step 71) and the driver DVR3
is activated to set the magnetic head 10 in a playback mode (step 72).
Then, the driver DVR1 is activated to drive the winding motor 14 to wind
the cleaning film 21 (step 73). Since the cleaning film 21 is moved while
the magnetic head 10 is activated, the data relating to the number of
times of cleaning recorded on the magnetic stripe 22 is read into the CPU
30 (step 74). The data relating to the number of times of cleaning thus
read is checked to determine whether it exceeds a predetermined number or
not (step 75). If the decision is that it does not exceed the
predetermined number, that is, that the cleaning operation may be
continued, the drivers DVR1 and DVR3 are deactivated to stop the winding
motor 14 and the operation of the magnetic head 10 (step 76). Then, the
driver DVR2 is activated to drive the rewinding motor 13 to rewind the
pulled-out cleaning film 21 (step 77). Whether the leading edge of the
cleaning film 21 has reached an initial loading position or not is
determined (step 78). When the leading edge of the cleaning film 21
reaches the initial loading position, the driver DVR2 is deactivated to
stop the rotation of the rewinding motor 13 (step 84) and the data
relating to the number of times of cleaning stored in the CPU 30 is
incremented by one (step 79). The driver DVR1 is activated to drive the
winding motor 14 (step 80), the data relating to the number of times of
cleaning is sent to the magnetic head 10 through the driver DVR3 and it is
recorded on the magnetic stripe 22 (step 81). Thereafter, the cleaning
operation followed by the rewinding is effected like the step 53 of FIG.
5.
On the other hand, if the decision in the step 75 is that the data relating
to the number of times of cleaning has reached the predetermined number,
an alarm signal is supplied to a display circuit DSP to cause the display
circuit DSP to display the alarm inform to an operator that a durability
of the cleaning cartridge 20 has been expired (step 82). The drivers DVR1
and DVR3 are deactivated to stop the winding of the winding motor 4 and
the operation of the magnetic head 10 (step 83). Then, in the step 57 of
FIG. 5, the pulled-out cleaning film 21 is stored into the cleaning
cartridge 20.
Since the data relating to the number of times of cleaning is overwritten
on the magnetic stripe 22 on the cleaning film 21, new data may be
directly written when the old data written on the magnetic stripe 22 is to
be updated, and it is not necessary to erase the old data.
In the embodiment shown in FIG. 6, the magnetic stripe 22 is provided on
the cleaning film 21 and the number of times of cleaning is recorded
thereon. Alternatively, a magnetic stripe may be formed on the cartridge
20 for accommodating the cleaning film 21, or semiconductor memory means
such as an EEPROM may be provided on the cleaning film 21 or the cartridge
20 for accommodating the cleaning film 21 to record the number of times of
cleaning in such memory means. In the second embodiment of the present
invention, the data relating to the number of times of cleaning is written
when the cleaning film is pulled out of the cartridge. Alternatively, it
may be written when the cleaning film is rewound.
In accordance with the camera having the magnetic head of the present
invention, when the cleaning film is loaded, the cleaning film is wound
and then rewound. The magnetic head is cleaned when the cleaning film is
moved through the winding and rewinding operations. Further, since the
wound cleaning film is always rewound, the cleaning film is always stored
in the cartridge.
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Description |
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