JP2673984B2 - camera - Google Patents

Description

TECHNICAL FIELD The present invention relates to a camera. More about Phil
Also called Mupatrone or film cartridge
Drive device for the film stored in the film container
You. [Prior Art] In a conventional camera, the cartridge chamber is simply filled.
It has only the function of storing Mpatrone.
Was. In other words, when loading the film, for example,
First, open the back cover and put the film cartridge in the cartridge room.
To be stored. And out of the film Patrone
The user holds the film by hand and fills the film in the Patrone room.
It is located on the path from the film outlet to the film exposure unit.
After that, by manually operating the winding lever, or
Operate the automatic film winding device by closing the back cover etc.
By doing so, the film is loaded. In such a camera, when loading the film, the user
Sets the film in place or the film outlet
Have to be inserted into the
It was a daunting task. This is a manual
Automatic film winding even for a camera that winds up Rum
Is also present in cameras equipped with
there were. Based on the above points, the frames stored in the Patrone
To make it easier to load the film into the camera,
If the cartridge is loaded into the chamber, it will engage with the cartridge.
The rotation of the drive shaft causes the end of the film to move outside the cartridge chamber.
It is sent out and configured to go to the film winding mechanism
A camera that has been proposed is proposed. With this camera, the photographer
Need only load the patrone into the patrone chamber,
This makes it easy to load the film. [Problems to be Solved by the Invention] However, the film loading method as described above is adopted.
Then, it does not occur in the film loading method like the conventional technology.
None The following problems occur. Here, in the following, the problems of the present invention will be sequentially described.
explain. As described above, the present invention is the same as the cartridge.
Simply put it in the Patrone storage room and it will automatically
The operation of sending the film edge from the storage chamber is performed.
You. This action engages the Patrone shaft,
By driving the driving mechanism to drive in the winding loosening direction,
Unwinding the film wound on the Patrone shaft
So, the film spreads along the inner surface of the Patrone
Achieved by livestock force as a spiral spring
Is done. However, the files sent from the cartridge storage room
A film film whose end is
After indexing the position, the above
If there is residual power, the
Is pushed in the direction of the spool axis, and the film is exposed in the film exposure section.
There is a problem that the plane life of the mu is damaged. [Means for Solving Problems] A characteristic configuration of a camera according to the present invention is that a film is wound.
And a housing portion that houses the winding shaft.
In a device that uses a film container,
The film container storage room for storing the film
The film edge is sent from the container storage room and automatically spooled
A winding shaft for winding the film end on the shaft;
Drive the take-up shaft in the direction to engage and loosen the film
The drive mechanism that drives the
Spun with the above spool shaft for winding film
Film and spool mechanism when film reaches
Wrap the film that is loose in the container storage room.
In order to prevent
To increase the film winding speed by the pool mechanism
Has a control means for controlling the drive mechanism and the spool mechanism.
It is characterized by doing. [Operation] According to the above configuration, the drive mechanism is driven in the winding loosening direction.
Automatically sent out from the film container storage chamber by moving
The wound film end is wound around the spool shaft,
Spool mechanism rather than film feeding speed by drive mechanism
The film winding speed is controlled so that
The film that has become loose in the film container storage chamber.
You can tighten the film. [Examples] Examples of the present invention will be described below with reference to the drawings.
You. FIG. 2 is a perspective view from below of a camera (CA) according to the present invention.
FIG. This camera (CA) is almost in front of the camera body (1).
Above the taking lens (2) provided in the center (in FIG. 2,
Flash emission window (3), viewfinder window
(4) and an object light receiving window for detecting object brightness
It has a window (5) for measuring the object distance. At the end of the lower surface of the camera body (1), a cartridge room
A substantially circular opening (7) for (6) is formed
You. The film cartridge (6) is a film cartridge (JIS
The 135-inch film cartridge (P) specified in
The side where the trone shaft (Px) projects is upward (down in Fig. 2
It is designed to be stored. And Patro
-The lid (8) for opening and closing the opening (7) of the chamber (6) is
(X ₁ ) Mounted on the camera body (1) so that it can rotate around
Locked to lock this lid (8) in the closed position.
A lock lever (9) is provided adjacent to the opening (7)
I have. This lock lever (9) puts the lid (8) in the closed position.
Rotate between locked and unlocked positions
Is supported to do so. The lock shown in FIG.
In the black position, the action part (9a) allows the camera
(CA) normally open lock switch (S3)
Is to be closed. Also, the lock lever
The axis (9b) of (9) is connected to the camera body (1).
An O-ring that is mounted to create a watertight structure inside the camera (CA)
(10) is fitted. In addition, the lock lever (9)
A locking member that locks at the lock position may be separately provided. An annular O-ring (11) is held on the inner wall of the lid (8).
And the lid (8) is in the closed position, this O
The ring (11) is between the lid (8) and the camera body (1)
Positioning keeps the inside of the camera (CA) watertight
It has become so. The shaft (8a) is erected on the inner wall of the lid (8).
The conical guide member (12) is attached to the tip of this shaft (8a).
It is rotatably supported. This guide member (12) is
The film cartridge (P) is stored in the cartridge chamber (6).
The cylindrical Patrone shaft on the side that is not protruding
(Hereinafter referred to as the lower Patrone shaft) (Pxb)
Position the film cartridge (P) in the radial direction.
It has become so. Further, the shaft (8a) of the lid (8) has a rotation blocking plate.
(13) is rotatably provided. Anti-rotation plate (13)
The upper surface of the figure shows the lid with the lid (8) in the closed position.
Film Patrone stored in the Trone room (6)
An annular elastic friction part that abuts the lower end surface (Pb) of (P)
Material (14) is attached. Also, the rotation prevention plate (13)
As shown in FIG. 3, the lower surface in the figure has sawtooth-shaped projections (13
a) is formed. On the other hand, a pair of leaf springs (15) are installed on the inner wall of the lid (8).
Attached to the free ends of the pair of leaf springs (15).
Elastically contact the protrusions (13a) of the rotation stop plate (13).
In contact. And the rotation stop plate (13) is
The elasticity of (15) urges it upwards and
The tip of the spring (15) may come into contact with the upright surface of the protrusion (13a).
And prevents the counterclockwise rotation in FIG.
It has become. In other words, the film patrone (P) is the patrone room
The elastic friction member (14) and the filter are stored in the (6).
Frictional force between the lower end face (Pb) of LUM PATRONE (P)
Film rewind direction unless a force exceeding
It doesn't rotate. The patrone chamber (6) is shown in Fig. 5 (a) to (c).
As shown, the film is formed into a substantially cylindrical shape.
A film cartridge (P) with a drawer (Pa)
It has an inner diameter that allows it to rotate around the trone axis (Px).
That is, the inner diameter of the cartridge chamber (6) is [D ₁ ], Film
The outermost part of the film pull-out part (Pa) from the center of the trone (P)
The distance to the edge is [d ₁ ] Then D ₁ > 2d ₁ It is. Also, as shown in FIG. 4, the top of the cartridge chamber (6)
3 guide levers (16) and a cartridge detection pin
(17) and the side where the film cartridge (P) projects
The cylindrical Patrone shaft (hereinafter referred to as the upper Patrone shaft)
(Pxt) and rotate to the Patrone shaft (Px).
A drive shaft (18) for transmitting movement is provided. The three guide levers (16) are located around the patrone chamber (6).
Are arranged 120 ° out of phase with each other.
You. Each guide lever (16) is on the ceiling of the Patrone room (6)
Standing about 50 ° from the plane (6a), the stand shown by the chain double-dashed line in Fig. 1.
In the upright position and inside the groove (6b) formed in the ceiling surface (6a)
It is rotatably attached to the retracted position.
You. Then, by springs (not shown),
It is biased to the upright position. The three guide levers (16) are attached to the loaded film
Rorone (P) is inserted into the back of the Patrone chamber (6)
Along with the upper Patrone axis (Pxt), the upper end face (P
contact with t) against the urging force of the spring to the retracted position
While being pushed into place, the tip of the
Push the shaft (Pxt) toward the center of the cartridge chamber (6),
The drive shaft (18) is engaged with the upper Patrone shaft (Px).
I will guide you. The number of guide levers (16) is 3
The film cartridge (P) is not limited to
Place the upper Patrone axis (Pxt) in the Patrone chamber (6)
It is sufficient if the number is one that does not hinder the guidance in the axial direction. The patrone detection pin (17) is located in the patrone chamber (6).
Projection position that projects from the ceiling surface (6a) to the cartridge chamber (6)
And the retracted position for retracting from the cartridge chamber (6).
The spring (1
It is biased toward the protruding position by 9). This patrol
The net detection pin (17) is inserted into the cartridge chamber (6).
Pressed by the upper end surface (Pt) of the film cartridge (P)
Move to the retracted position and close the normally open loading switch (S2)
It has become so. The drive shaft (18) is the protrusion (18a) and the upper Patrone shaft.
Plate part (18b) with a width that can be engaged in (Pxt) and gear
A cylindrical part (1) that is fitted onto the transmission shaft (20) connected to (G26).
8c) etc. And formed on the tubular part (18c)
The long hole (18d) in the longitudinal direction
The pin (20a) provided on the surface is fitted, and this drive shaft (1
8) is, as a whole, in the axial direction with respect to the transmission shaft (20).
Slidable and rotates integrally with the transmission shaft (20)
It is configured as follows. In addition, this drive shaft (18)
By the pulling (21), the film cartridge (P) side (Fig.
In the lower side). And the plate part (18b)
Is engaged in a groove (not shown) in the upper Patrone shaft (Pxt).
Drive can be transmitted to the Patrone axis (Px).
And can be. As shown in FIGS. 5 (a) to 5 (c), the camera (C
In the inside of A), there is a film carrier in addition to the cartridge chamber (6).
A film transport roller (22) that constitutes the transport mechanism (FT)
Pressure contact roller (23), taking lens (2), shutter (2)
4), film exposure part (25), film pressure plate (26),
Sprocket for film measurement (27), spool chamber (2
8), spool (29) with built-in motor (M), fill
Battery guide lever (30) and battery compartment to store battery (E)
(31) is provided. The film cartridge is installed on the side wall of the cartridge chamber (6).
A slit-shaped film feed opening along the axial direction of (P)
(6c) is formed. Film transport rollers (22)
The peripheral walls of both the pressure contact roller (23) and the pressure contact roller (23) are made of elastic rubber material.
It is made up of materials and is placed near the film outlet (6c)
I have. The film transport roller (22) is driven by a motor (M).
It is fixed to the driven shaft (22a). Also, pressure welding
Roller (23) is rotatably supported for film transport
It is pressed against the roller (22). And film transport
By rotating the roller (22) for both rollers (2
The film (F) sandwiched between 2) and (23) moves in the direction of rotation.
Therefore, the sheet is conveyed in the left-right direction in the figure. Sprocket for film measurement (27) is a film
When the (F) is conveyed, the perforation of the film (F)
Rotation to engage the film, as described below.
While driving the counter (39), the film for one frame
One piece switch that is closed when the transportation of (F) is completed
Perform operation of (S5). Guide lever (30) rotates at the tip
It has a freely installed roller (30a) and a mounting shaft (30b)
It is attached so that it can rotate freely and has a spring.
(Not shown) allows the roller (30a) to spool (29)
Is urged to elastically press against the peripheral wall of the. Soshi
The guide lever (30) reaches the spool chamber (28).
Of the film (F) around the spool (29) in the figure
Spool (29) while guiding you in the direction A
Suppress the film (F) that is wrapped around the
It is supposed to. The taking lens (2) is detected by a distance measuring device (not shown).
Lens drive device based on the distance information to the captured object
(Not shown) automatically adjusts the focus on the subject
Is configured to be done. Also, shutters (24)
Is a so-called program lens that changes the aperture over time.
Object detected by a photometer (not shown)
Based on the brightness information of the body, the exposure control device (not shown)
The exposure is controlled more automatically. Then, the film transport roller (22) and the pressure contact roller
A pair of light shielding members (32) and (33) are installed on the side of (23).
Have been killed. The pair of light blocking members (32) and (33) are
Both are made of elastic material such as rubber that has a light blocking effect.
Installed with the end parts elastically abutting each other
I have. The pair of light shielding members (32) and (33) are provided on the lid (8).
Film in the Patrone chamber (6) with the
The light leaking from the exit (6c) is exposed to the film exposure section (25) and
And to prevent it from entering the spool chamber (28).
ing. Therefore, after shooting a few frames, rewind
If you accidentally open the lid (8) when you are not
Can also prevent exposed film from being exposed
It is. The surfaces of the light shielding members (32) and (33) that are in contact with each other
By attaching a light-shielding cloth such as Telemp to the
It may be performed more reliably. Next, drive shaft (1) for the film cartridge (P)
8), film transport roller (22), and spool (2
Drive transmission device that transmits the driving force from the motor (M) to 9)
Explain the structure. As shown in FIG. 6, the rotation shaft (Ma) of the motor (M) is
The fixed gear (G1) is the gear that makes up the reduction gear train.
Via (G2), (G3), (G4), (G5), (G6), (G7)
And is linked to the gear (G8). To gear (G8)
Is a pair of upper and lower gears (G9) and (G10) in the figure.
It is fixed so that it can rotate together with (G8). Lower part in the figure
The gear (G10) is a gear that rotates integrally with the spool (29).
Bound to (G11). That is, the rotation of the gear (G1) accompanying the rotation of the motor (M)
Causes the motor (M) to rotate in the opposite direction of rotation.
The roller (29) is driven to rotate. On the other hand, the upper gear (G8) in the figure that rotates together with the gear (G8)
9) is gear (G12), (G13), (G14), (G15), (G
It is connected to the sun gear (G17) via 16). Sun
The planet gear (G18) that meshes with the gear (G17) is the sun gear.
A lever rotatably supported on the rotation shaft (34) of (G17)
It is rotatably attached to (35). This planetary gear
In (G18), the sun gear (G17) rotates in the direction A in the figure.
The sun gear (G19).
When 17) rotates in the B direction in the figure, it meshes with the gear (G20).
It is designed to move to a different position. Gear (G19) drives the film transport roller (22)
It is fixed to the shaft (22a), and the gear (G21) and
It is connected to the gear (G23) via (G22). Soshi
This gear (G23) is connected via a one-way clutch (36).
Connected to the drive shaft (18) for the film cartridge (P).
Is tied. One-way clutch (36) is a gear (G23)
Drives its rotational force only when the device rotates in the direction A in the figure
It is designed to convey to the shaft (18). Meanwhile, the gear (G2
0) is connected to the drive shaft (20) via gears (G24), (G25)
It is connected to a fixed gear (G26). The operation of the drive transmission mechanism configured as described above will be described.
You. The rotation shaft (Ma) of the motor (M) rotates in the B direction in the figure.
And the spool (29) is in the direction A in the figure, that is, the film
Rotate (F) in the winding direction. Also, the sun gear (G1
7) rotates in the direction of A in the figure, and the planet gear (G18) turns into the gear (G1
9) and the film transport roller (22)
Fill in the direction of middle A, that is, in cooperation with the pressure contact roller (23)
Rotate in the direction to convey the film to the spool chamber (28) side. Sa
In addition, the drive shaft (18) for the film cartridge (P)
Is rotated in the direction A in the figure, and the Patrone axis (Px)
It drives in the direction in which the frame (F) loosens. As a result, the film in the film cartridge (P)
(F) is moved to the left in the figure by the film transport mechanism (FT).
The spool chamber is transported and passes through the film exposure unit (25).
It reaches (28) and is wound around the spool (29).
It is. Also, at this time, by the film transport mechanism (FT)
The transport speed of the film (F) is controlled by the spool (29).
Winding speed of film (F) and of Patrone shaft (Px)
It is designed to be faster than the unwinding speed. Therefore, winding the film (F) on the spool (29)
Even if the winding speed gradually increases due to overweight, the film
(F) is faster than the transport speed of the film transport mechanism (FT)
The film (F) is stretched without being wound up quickly.
Is prevented. In addition, the winding speed of the film (F) by the spool (29)
The fastest, then the film transport mechanism (FT)
The film (F) transport speed is increased and the Patrone axis (Px)
Drive transmission mechanism so that the winding loosening speed of
You may comprise. In that case, fill the spool (29)
From transport speed and winding speed of Patrone shaft (Px)
Will rotate faster, but there is in the spool (29)
Or interpose a friction mechanism in the drive transmission mechanism,
Configure the spool (29) to drive friction
Good. That is, the film winding on the spool (29)
The friction mechanism increases the winding speed due to overweight.
Because it is absorbed. On the other hand, the rotating shaft (Ma) of the motor (M) rotates in the direction A in the figure.
When rotated, the spool (29) rotates in the B direction in the figure. Ma
Also, the sun gear (G17) rotates in the direction B in the figure and the planet gear (G17)
18) meshes with the gear (G20) to allow film patrol
The drive shaft (18) with respect to (P) rotates in the B direction in the figure,
Film (F) is caught in the Patrone axis (Px)
Drive in the direction. And this drive shaft (18) direction B in the figure
Rotation towards the gear (G2
3) and then through gears (G22), (G21)
To the gear (G19) and the film transport roller (2
The drive shaft (22a) of 2) is driven to rotate in the B direction in the figure. As a result, the film wrapped around the spool (29)
(F) is moved to the right in the figure by the film transport mechanism (FT).
Transported and rewound into the film cartridge (P)
It is. That is, the drive shaft (18) is the Patrone shaft (Px)
Film rewind shaft (RS)
Also serves as. On the other hand, the sprocket for film measurement (27) has already been described.
Perforated film (F) conveyed as if it were solid
It is configured to be driven by engaging with an optional portion. this
The sprocket for film measurement (27) is a sprocket
The one-piece switch actuation mechanism (38) and the
It is linked to the film counter (39). The one-piece switch actuation mechanism (38) is connected to the shutter (24).
Exposure of film (F) is completed.
When finished, close the one frame switch (S5) and
Sprocket (27) is driven to operate the sprocket
The mechanism (37) completes the winding of one frame of film (F).
Open the one-piece switch (S5) when detected
Is configured. Also, the film counter (39) is operated by the sprocket.
The display of the display device (40) is changed according to the operation of the mechanism (37).
The initial hoisting switch actuation mechanism (41)
Then, open and close the initial hoist switch (S4). This initial volume
The upper switch actuation mechanism (41) is a film counter (39).
Until the first frame of film (F) is detected
Switch (S4) is closed and the film counter (39) is closed.
Initial hoist switch when the first piece of RUM (F) is detected
It is configured to open (S4). Next, drive the motor (M) for transporting the film (F).
The moving motor drive circuit shown in FIG. 7 will be described. In this circuit, (S1) is the main switch and (S2)
Film Patrone (P) is stored in the Patrone room (6)
The loading switch shown in FIG. 1 which is closed when it is stored,
(S3) is when the lock lever (9) is in the locked position
The lock switch (S4) shown in Fig. 1, which is closed, is a filter.
Rum counter (39) counts the first piece from the initial state
Initial hoisting switch shown in Fig. 6, which is closed until (S5)
Is released when the winding of one frame of film (F) is completed
Is closed when the exposure is completed and the one-piece space shown in FIG. 6 is closed.
Switch (S6) has a rewind lever (not shown) at the rewind position.
The rewind switch that is closed at a certain time, and (S7) is
Rewind complete switch that is closed when the rewind of film (F) is completed.
(S7). The motor (M) has a main switch (S1) and a pair of relays.
-Use the power switches (RL1), (RL2) to
It is connected to the pond (E). Both relay switches (RL
1) and (RL2) are respectively different transistors (T1),
(T2) becomes conductive and becomes active.
Connect to the power battery (E). Also, both relay switches
If neither (RL1) or (RL2) is in operation,
Both electrode terminals of the motor (M) are short-circuited to stop the motor (M).
It is designed to stop. And a pair of transistors
The bases of (T1) and (T2) have transistors (T3) and (T
4) The collectors are connected separately and they are
When the transistors (T3) and (T4) are turned on, the
The transistors (T1) and (T2) are in the "OFF" state, and the corresponding
The relay switches (RL1) and (RL2) are deactivated. One input terminal of the AND circuit (AN1) is connected to the loading switch.
H (S2) and lock switch (S3) and pull-down resistor
(R1) connected to the connection point, the other input terminal is the initial winding
At the connection point between the upper switch (S4) and pull-down resistor (R2)
It is connected. That is, the AND circuit (AN1) has three
When switches (S3), (S4) and (S5) are all closed
Output "H" level signal to. One input terminal of the OR circuit (OR1) is an AND circuit (AN
1) is connected to the output terminal and the other input terminal is
Switch (S5) and pull-down resistor (R3)
Have been. The output terminal of the OR circuit (OR1) is 2
Connected to the bases of two transistors (T1), (T4)
I have. That is, is the OR circuit (OR1) an AND circuit (AN1)?
Receiving "H" level signal from them, or single frame switch
Outputs an "H" level signal when (S5) is closed.
You. As a result, the two transistors (T1) and (T4)
It will be in the “ON” state, and the relay switch (RL1) will
The data (M) rotates normally. The output terminal of the OR circuit (OR1) is connected to the inverter (I
Connected to the base of the transistor (T5) via N3)
I have. This transistor (T5) is a constant current circuit (CC),
Capacitor (C1), constant voltage circuit (CE), and comparator
Together with the data (CP1), it constitutes a timer circuit.
The comparator (CP1) is a capacitor (C1) in the "ON" state.
The transistor (T5) that short-circuits the "OFF" state for a predetermined time
The charging voltage of the capacitor (C1) is kept constant by continuing
When the voltage becomes higher than the voltage of the circuit (CE), the “H” level signal is sent.
Output a signal. Output terminal of this comparator (CP1)
Is connected to one input terminal of the OR circuit (OR2)
You. The other input terminal of this OR circuit (OR2)
1 piece switch (S5) and pull down via the data (IN2)
It is connected to the connection point with the resistor (R3). That is, or
In the circuit (OR2), the comparator (CP1) is the signal of "H" level.
Signal is output, or the one-piece switch (S5) is opened
When output, it outputs an "H" level signal. One input terminal of the AND circuit (AN2) is an OR circuit (OR
2) is connected to the output terminal and the other input terminal is
Connection to the output terminal of the AND circuit (AN1) via the data input (IN1)
Has been continued. And the output terminal of the AND circuit (AN2)
Is connected to the base of the transistor (T3). Immediately
The AND circuit (AN2) has an "L" level.
While outputting the bell signal, the OR circuit (OR2)
When the "H" level signal is output, the "H" level signal
Is output. This turns on the transistor (T3).
Then, the motor (M) is stopped. On the other hand, the base of two transistors (T2) and (T3)
Of the rewind switch (S6) and pull-down resistor (R4)
It is connected to the connection point. That is, the rewind switch (S6)
When closed, two transistors (T2), (T3)
Both turn on and the relay switch (RL2) is turned on.
The motor (M) rotates in reverse as it moves. Also transistors
(T4) base is rewind complete switch (S7) and pull down
It is connected to the connection point with the resistor (R5). That is, rewind
When the completion switch (S7) is closed, the transistor (T
4) becomes "ON" and the motor (M) during reverse rotation stops.
You. This rewind completion switch (S7) is used to carry the film (F).
Film transport roller (22) and pressure roller (2)
It is provided near 3). Then, at that position
The film (F) exists and contacts the film (F).
Open when no film (F) is present
It is configured to be. Rewind complete switch (S7)
In place of this configuration, for example, a film transport roller
Both (22) and pressure contact roller (23) are made of conductive material.
And when they do not have a film (F)
The film (F) is closed by contact with
You may comprise so that it may be opened by existing. Next, each operation of the camera configured as above will be explained.
I do. <1> Film loading operation As shown in FIG. 2, the lid (8) of the cartridge chamber (6)
With the camera open, attach the film cartridge (P) to the upper
The Torrone axis (Pxt) side enters the Patrone chamber (6) first
To load. At this time, the film of Patrone (P)
The rum extraction part (Pa) is located around the Patrone axis (Px).
It may be in position. Also, with this camera (CA), what is the above method?
Don't touch the film cartridge (P) in any other way
Film loading can be performed. Then explain it
I do. As shown in FIG. 8 (a), the film cartridge
In (P), the upper Patrone shaft (Pxt) generally has a lid (42
Place it in the Patrone case (42) with the position a).
Has been delivered. When loading the film, first,
As shown in (a), turn the camera (CA) upside down and
Open the lid (8) of the Torrone chamber (6) and open the cartridge.
Remove the lid (42a) of the sleeve (42). Next, as shown in FIG.
The Patrone case (42) upside down
Located in the opening (7) of the chamber (6). This allows
The film patrone (P) is as shown in Fig. 8 (c).
Then, fall into the Patrone chamber (6). Whichever method you use, close the lid (8)
Mpatrone (P) is shown in Fig. 1 and Fig. 5 (a).
Thus, it is stored in the cartridge chamber (6). This and
When the Patrone axis (Px) is slightly tilted,
The lid (8) closes even when inserted in the chamber (6)
As the film cartridge (P) is inserted
And the tip of the guide lever (16) is the upper Patrone shaft (Pxt)
Is located in the center of the ceiling surface (6a) of the Patrone room (6).
The drive shaft (18) and the lid (8)
Guide member (12) attached to the lower part of the Patrone shaft (Pxb)
By entering, the Patrone axis (Px) will move to the Patrone room
Fill so that it stands upright with respect to the ceiling surface (6a) of (6).
The posture of Mpatrone (P) is corrected. Then, as shown in FIG. 1, the lid (8) is closed.
Bullets secured to the rotation blocking plate (13) while locked
Of the friction member (14) by the urging force of the leaf spring (15).
Elastic contact with lower end face (Pb) of LUM PATRONE (P)
However, within the range of the frictional force between the two members (P) and (14),
The roll prevention plate (13) and the film cartridge (P)
It is integrally connected around the Rhone axis (Px). This
The film cartridge (P) has a serrated projection (13
Due to the engagement of a) and the leaf spring (15), there is no Fig. 5 (a).
In (c), only rotation in the direction A in the figure is allowed.
Become like The drive shaft (18) for the film cartridge (P) is
Engage in the upper Patrone shaft (Pxt),
b) engages with a groove in the upper Patrone shaft (Pxt) and rotates
The driving force can be transmitted to the Patrone shaft (Px).
The protrusion (18a) at the tip of the plate (18b) is
Inside the upper Patrone axis (Pxt) when inserting
The groove and the plate (18b) of the drive shaft (18) are smoothly engaged.
Is provided. Of the drive shaft (18) when inserting the film cartridge (P)
Plate part (18b) does not engage with the upper Patrone shaft (Pxt)
In case, the drive shaft (18) is biased by the spring (21)
In the ceiling surface (6a) of the Patrone room (6)
Driven in, then the drive shaft (18) started to rotate
Sometimes it is designed to engage in the upper Patrone axis (Pxt).
Has been established. In this state, the tip of the film (F) is
Elasticity of its own, elastic to the inner wall of the cartridge chamber (6)
Is in sliding contact with. Further, in FIG. 1, the film cartridge (P) is
When inserted, the cartridge detection pin (17) will spring.
Move upward in the figure against the urging force of (19), and load switch
Chi (S2) is closed. Also, the lock lever (9)
The lock switch (S3) is turned by turning to the lock position.
Closed. At this time, the main switch (S1) is closed.
It is assumed that Also, the initial hoist switch (S4)
Is closed because the film counter (39) is in the initial state.
Has been established. Therefore, in FIG. 7, the AND circuit (AN1) and
The circuit (OR1) outputs the "H" level signal, and
The motor (M) rotates in the normal direction when the star (T1) is turned on.
Start. This normal rotation is detected by the film counter (39).
The first homing switch (S) is detected by detecting the first frame of the rum (F).
4) is opened, and the one-piece switch (S5) is opened.
Will continue until 5 (a) to (c) and FIG.
(M) rotates normally, that is, the rotation axis (Ma)
By rotating in the direction B in the figure, the spool (29)
Rotate in the middle A direction. The planet gear (G18) is
19) meshes with the film transport roller (22) and drive shaft
(18) is rotated in the direction A in the figure. By rotating the drive shaft (18) in the direction A in the figure,
Rhone axis (Px) rotates in the direction that film (F) winds
Is done. That is, engage with the groove in the upper Patrone shaft (Pxt)
Drive shaft (18) and the drive shaft for this drive shaft (18).
The motion transmission mechanism allows film film in the cartridge chamber (6).
Rotate the trone (P) in the direction that the film (F) winds up
The Patrone rotation drive mechanism (PM) is configured. By this rotation, the film (F) becomes a film patro.
At the film pull-out part (Pa) of the panel (P)
Since there is frictional resistance between the Patrone shaft (Px)
By rotation, the film (F) turns into a film cartridge.
The film patrone spreads in the axial direction in (P).
It comes into pressure contact with the inner wall of (P). In this state,
Rhone axis (Px), film (F), and film putt
The Rhone (P) comes to rotate integrally. On the lower end surface (Pb) of the film cartridge (P),
Elasticity urged by the leaf spring (15) as shown in Fig. 1.
The friction member (14) is in contact, but the elastic friction member (14)
The rotation prevention plate (13) and the leaf spring (15) connected to the
Allow rotation of the film (F) in the delivery direction
And the film patrone (P) is a film
With (F), rotate in the direction A in Fig. 5 (a).
Start. With this rotation, the tip of the film (F)
Is formed almost all around the inner wall of the cartridge chamber (6).
A in the figure while being guided by sliding contact with the guide surface (6A)
Moving in the direction, the fill formed in the cartridge chamber (6)
It reaches to the mug exit (6c). Then, as shown in FIG. 5B, the film (F)
The leading edge of the film passes through the film outlet (6c),
Insert it between the sending roller (22) and the pressure roller (23).
It is. The film transport roller (22) is driven in the direction A in the figure.
It is being rotated and the film (F) is transported to the left in the figure.
You. And the film (F) is exposed to the film (25).
Spool chamber after passing between the film and the film pressure plate (26)
As shown in Fig. 5 (c), the guide lever is reached.
Take it up on the spool (29) in the direction A in the figure along (30).
It is. As mentioned above, the motor (M) rotates in the forward direction and the film
When the winding operation of (F) is performed, as already described
The rotation of the drive shaft (18) causes the Patrone shaft (Px)
The speed at which the film (F) unwinds
The transport speed of the film (F) by the rollers (22), (23)
It is set to be even slower. Therefore, the film
As the winding operation of (F) progresses, the original film
The looseness of (F) gradually decreases and eventually disappears. After that, rotate the film transport roller (22).
Film wrapped around the Patrone axis (Px)
Since (F) will be forcibly released, the drive shaft (1
8) is rotated faster than the rotation speed of the gear (G23). I
However, as shown in Fig. 6, this drive shaft (18) and gear
Between (G23) and the gear (G23) in the direction of A in the figure.
Rotation, that is, only the rotation of the drive shaft (18) in the B direction in the figure is transmitted.
The reaching one-way clutch (36) is
It doesn't happen. And the sprocket for film measurement (27) is transported.
The perforation of the tip of the film (F)
When they meet, start spinning and, as already mentioned,
A film counter (39) and a switch actuating mechanism (38)
Activate The film counter (39)
Of the first piece of film (F) based on the
When the end is detected, the initial hoist switch (S4) is opened,
Then, the first frame of the film (F) is the film exposure section (2
When it is detected that the switch is in position 5), the one-piece switch (S5)
Is released. As a result, in FIG.
The path (AN1) and the OR circuit (OR1) are both the "L" level signal.
Signal is output and the transistor (T3) is in the "ON" state.
The motor (M) stops. <2> Shooting operation and winding operation Film in the film loading operation of <1> described above
After the initial winding of (F) is completed, the initial winding switch
(S4) remains open, and is it an AND circuit (AN1)?
These output signals maintain the "L" level. In this state, press the release button (not shown)
When the shutter release operation is performed, the shutter (24)
After the film (F) has been exposed, the single frame switch (S
5) is closed. Therefore, in FIG. 7, the OR circuit
(OR1) outputs the “H” level signal,
The motor (M) rotates in the normal direction when the motor (T1) is turned on.
You. As a result, in FIG. 6, the drive shaft (18) and the fill
The transport roller (22) and spool (29) are both
Also rotates in the direction A in the figure, and the film (F) is transported to the left in the figure.
Sent. At this time, the released shirt (24)
Recharge by shutter charge mechanism (not shown)
It is supposed to be. On the other hand, the sprocket for film measurement (27) is
Driven by the film (F) that is rotated in the direction of A in the figure,
Through the sprocket actuating mechanism (37), the film counter
Switch (39). Transport of one frame of film (F)
Is completed, the one-piece switch actuating mechanism (38)
The frame switch (S5) is opened, the film of <1>
The motor (M) is stopped by the same operation as the loading operation. <3> Film thrust detection operation During the film winding operation of <2> described above, the OR circuit
While the (H1) level signal is being output from (OR1),
Is the output signal from the inverter (IN3) at "L" level?
, The transistor (T5) is in the "OFF" state. Obedience
The current from the constant current circuit (CC)
The charging of the service (C1) is performed. The film (F) is wound for a predetermined time (immediately
Usually, it is necessary to wind one frame of film (F)
(Slightly longer than the time) One piece switch (S5)
If the capacitor is not opened, the charging voltage of the capacitor (C1)
Voltage rises and becomes higher than the voltage of the constant voltage circuit (CE).
The output signal of the comparator (CP1) is inverted to "H" level.
You. At this time, the output signal from the AND circuit (AN1) is
Since it is at "L" level, the gate of the AND circuit (AN2) is
Opened and "H" level from comparator (CP1)
Signal passes through the OR circuit (OR2) and the AND circuit (AN2)
Output from Therefore, the transistor (T3) is "ON".
Then, the motor (M) is stopped. In this state, usually all the frames of film (F) have been taken.
When you have completed the
It occurs when the frame (F) is no longer fed. That is,
The rum measurement sprocket (27) is not driven, and
The switch (S5) will not be opened even after a certain period of time.
It is. On the other hand, when normal film transport is in progress,
If the one-piece switch (S5) is opened within the specified time, the
The output signal from the circuit (OR1) becomes "L" level. So
Then, through the inverter (IN3), the transistor (T5)
Turns on, the capacitor (C1) is charged.
Charge is discharged, which causes the capacitor (C1) to
To the initial state. <4> Film rewinding operation Film rewinding operation by operating the rewinding lever (not shown)
The work is set, and in FIG. 7, the rewind switch (S6)
When closed, the transistor (T2) goes into the “ON” state.
The relay switch (RL2) operates and the motor (M)
Reverse. As a result, in FIG. 6, the drive shaft (1
8), film transport roller (22), and spool (2
All of 9) rotate in the direction B in the figure, and the spool (29)
The wound film (F) is conveyed rightward in the figure. By rotating the drive shaft (18) during the rewinding operation,
The film (F) locked to the Patrone shaft (Px)
The friction between the film pull-out part (Pa) and the telem
The film patrone (P) itself receives a rotational force. Only
On the lower end surface (Pb) of the film cartridge (P),
The elastic friction member (14) is in contact and its friction force is
It is greater than the frictional force between Rum (F) and the telem. So
The elastic friction member (14) is attached to the rotation stopper.
The stop plate (13) engages the protrusion (13a) and the leaf spring (15).
Depending on the combination, the rotation of the film (F) in the rewinding direction is blocked.
Since it is stopped, the film cartridge (P) rotates
Absent. That is, the elastic friction member (14), the rotation prevention plate (13), and
And the leaf spring (15) allow the film to rewind during film rewinding.
A patrone that prevents the rotation of the film patrone (P)
The reverse rotation prevention mechanism (RI) is configured. Therefore, the film conveyed to the right in FIG. 6 is driven.
On the Patrone shaft (Px) which is driven and rotated by the shaft (18)
It is rewound. Film (F) is all film patrol
When it is rewound into the cable (P), the rewinding completion switch (S7)
Is closed. As a result, in FIG.
The transistor (T4) is turned on and the transistor (T2)
The motor (M) stops in the "OFF" state. In the previous embodiment, the cartridge rotation drive mechanism (PM) was used.
Drive shaft that engages with a groove in the upper Patrone shaft (Pxt) (1
8) has been explained. Patrone rotation drive mechanism
The specific structure of (PM) can be changed as appropriate.
An example will be described. As shown in FIGS. 9 (a) to 9 (c), the cartridge
On the ceiling surface (6a) of the room (6), a pair of support levers (5
1) and (52) rotate on the separate mounting shafts (51a) and (52a).
It is supported. At the tips of both levers (51) and (52)
Rotate the patrone support rollers (53) and (54) respectively.
It is freely supported. The support levers (51) and (52) are connected to each other by an interlocking mechanism (illustration).
To the lid (8) of the cartridge chamber (6)
9th when the lid (8) is in the open position.
The lid (8) is closed at the retracted position shown in FIG.
Sometimes it moves to the operating position shown in Fig. 9 (b) and (c).
You. The support levers (51) and (52) are in the operating position.
The pair of patrone support rollers (53),
(54) is the upper Patrone axis (Pxt)
It is configured to support each other. In the figure, (55) is the sun roller, which is supported by the mounting shaft (55a).
And is linked to a drive mechanism (not shown).
In this way, it is driven to rotate in both directions. In addition,
This drive mechanism is the same as the drive in the previous embodiment shown in FIG.
It is almost the same as the mechanism, and this embodiment is similar to the one shown in FIG.
Considered to have a sun roller (55) in place of the drive shaft (18)
May be. There is a lever on the mounting shaft (55a) of this sun roller (55).
(56) is rotatably supported. This lever (56)
A pair of planet rollers (57) and (58) rotate on both free ends of
It is movably supported. And both planet rollers (5
7) and (58) are both frictionally coupled to the sun roller.
You. When the sun roller (55) rotates in the direction A in the figure, it is shown in FIG.
As shown in (b), the lever (56) rotates and the planetary low
The la (58) contacts the outer periphery of the upper Patrone shaft (Pxt),
The rotation of the sun roller (55) is transmitted through the planetary roller (58).
Reached and slide the Patrone axis (Px) in the direction A in the figure.
You. On the other hand, the sun roller (55) rotates in the B direction in the figure.
Then, as shown in FIG. 9 (C), the lever (56) is rotated.
The planetary roller (57) is the outer periphery of the upper Patrone shaft (Pxt).
The sun roller (55) rotates against the planet roller (57).
Is transmitted through the shaft, and the Patrone shaft (Px) is moved in the direction B in the figure.
Rotate. In this configuration, for example, the broken line in FIG.
As shown, the upper Patrone axis (Pxt) is the Patrone chamber.
When inserted at a position slightly off the center of (6)
The pair of support levers (51), as the lid (8) is closed.
By moving (52) from the retracted position to the working position,
The patrone support rollers (53) and (54) of
The trone axis (Pxt) is pushed toward the center position.
So that the posture of the film patrone (P) is corrected
It has become. The lever (56) is driven by the sun roller (55).
If not, stop at the position shown in Fig. 9 (a).
It is urged with a weak force. Therefore, Patrone
The upper part of the film cartridge (P) inserted in the chamber (6)
The Patrone axis (Pxt) is biased toward the sun roller (55)
When the sun roller (55) is driven to rotate even if
And push it to the center by either planetary roller (57 or 58).
It is moved. Next, still another embodiment will be described. Figures 10 and 11
In the figure, the structure of the patrone chamber (6) is different.
At the same time, the Patrone rotation drive machine
It is the structure of the structure (PM). As shown in Figs. 10 (a) to 10 (c), the patrone
The inner diameter of the chamber (6) is in the film cartridge (P).
Patrone axis (Px) from the outermost edge of the film pull-out part (Pa)
Wall of film patrone (P) facing each other through the center of
It is slightly larger than the distance to. That is,
Set the inner diameter of the trone chamber (6) to [D _Two ], Film Patrone
From the center of (P) to the outermost edge of the film pull-out part (Pa)
The distance is [d ₁ ], Half of the tubular part of the film cartridge (P)
Diameter is [d _Two ] 2d ₁ > D _Two > D ₁ + D _Two It is made to become. Therefore, the Patrone room (6)
In the inside, with the rotation of the film cartridge (P)
The Patrone shaft (Px) rotates eccentrically. Therefore, as shown in FIG. 11, in the embodiment shown in FIG.
On the projection (18a) and plate (18b) of the drive shaft (18)
Drive with corresponding protrusion (59a) and plate (59b)
Install the plate (59) in FIG. 1 through the transmission spring (60).
It is interlocked with the transmission shaft (20) in the embodiment shown.
This transmission spring (60) is upright in the free state.
And supports the drive plate (59). Meanwhile, the Patrone room
With the loading of the film cartridge (P) in (6),
Drive plate (59) engages groove in upper Patrone shaft (Pxt)
In this state, it elastically deforms as shown in FIG. Soshi
The drive plate (59), which is a deformation of the drive shaft,
With the eccentricity to the center of (6), the Patrone shaft
It allows the driving force to be transmitted to (Px). As a result, the film cartridge (P) is
The Patrone shaft (Px) is eccentric to the chamber (6)
Will be driven and rotated. In this configuration, the inside diameter of the cartridge chamber (6) is small.
I can do it. Also, the inside diameter of this cartridge chamber (6)
By setting the appropriate size, the inserted film
The Torrone (P) patrone axis (Px) is in the patrone chamber
Always include the center (C) of (6) in plan view
Can be. That is, for example, the protrusion (59a) of the drive plate (59)
By placing it in the center of the Patrone room (6),
Where the film pull-out part (Pa) is around the Patrone axis (Px)
The film cartridge (P) is inserted in the position
Even if it is broken, the protrusion (59a) and the upper Patrone shaft
Since it is guided inside (Pxt), the plate part (59b) of the drive plate (59)
Smoothly engages with the groove in the upper Patrone shaft (Pxt)
Because In this way, Fig. 10 (a) shows the upper Patrone shaft.
Show the state where the drive plate (59) is engaged with the groove in (Pxt).
I have. After that, by the same operation as in the previous embodiment, the patro
-Close the lid (8) of the chamber (6) and set the drive plate (59) to A in the figure.
When rotated in the direction, the film cartridge (P)
Rotate while eccentric from the center (C) of the trone chamber (6)
You. As a result, the leading edge of the film (F) is in the cartridge chamber.
A direction in the figure while being guided by sliding contact with the inner wall (6A) of (6)
Move to the direction and feed the film as shown in Fig. 10 (b).
To the mouth (6c). Film Patrone (P) is even more driving
By being dynamically rotated, as shown in FIG.
The leading edge of the film (F) is connected to this film outlet (6c).
The film transport mechanism (shown in Fig. 10 (C))
No). Fig. 12 shows the patrone during the film rewinding operation.
Patrone reverse rotation prevention mechanism to prevent (P) from rotating
(RI) shows another example. In this example, the size and shape of the cartridge chamber (6)
Is the same as that shown in FIGS. 10 (a) to 10 (c).
You. And on a part of the inner wall (6A) of the Patrone chamber (6)
A slit recess (6d) is formed, and this slit recess (6d) is formed.
A locking lever (61) is provided inside. This locking lever (61) is a cartridge shown by the solid line in the figure.
The action position protruding into the chamber (6) and the two-dot chain line in the figure
Across the evacuation position to evacuation outside the Patrone chamber (6)
It is rotatably mounted. And rewind switch
Interlocked with the operation of the rewind lever (not shown) linked to (S6)
Then, when the film rewind operation is set,
It is configured to move to the storage. During film rewinding, the Patrone axis (Px)
By driving in the middle B direction, the film cartridge
(P) itself is also acted on by a force to rotate in the direction B in the figure.
I do. However, the locking lever (61) in the operating position is
Since it contacts the rum drawer (Pa), the film cartridge
The rotation of (P) in the B direction in the figure is blocked, and the film
(F) smoothly rewinds into the film cartridge (P)
It is done. On the other hand, the locking lever (61) is used for mounting the film (F).
When filling or winding the film (F), the Patrone room
(6) It is in the retracted position outside. In addition, this locking lever (6
The thickness of 1) should be about [1.0 mm], and
The width of the slit recess (6d) required for this is also about 1.0 mm
Because it is good, the film loading operation and film winding described above
It hinders the transfer of the film (F) during the bending operation.
There is no such thing. The structure in which this locking lever (61) is provided is shown in FIG.
Patrone chamber in the embodiment shown in (a) to (c)
Of course, it is possible to apply to (6). In each of the embodiments described above, the inside of the cartridge chamber (6)
To rotate the film cartridge (P) with
Lum Patrone (P) upper Patrone axis (Pxt),
Shows the configuration in which the film (F) is driven to rotate in the direction in which it is wound
Film on the other side of the lower Patrone axis (Pxb)
It may be configured so that (F) is driven in the direction in which it winds up.
No. Furthermore, as a cartridge rotation drive mechanism (PM),
Loosen the film (F) by rotating the trone shaft (Px)
The film (F) and film patrone (P)
Rotate the film cartridge (P) by contact with the inner wall
The film cartridge (P) itself is rotated directly instead of the configuration.
It may be configured to be rotationally driven. As an example,
However, in the embodiment shown in FIG.
Elastic friction member (14) on the lower end surface (Pb) of the trone (P)
Use the fact that they are in contact with each other and replace it with the rotation prevention plate (13).
A disk, and the disk is connected to the motor via a wire.
It is conceivable that it is linked to (M). According to the configuration of the present invention, the drive mechanism is wound in the loosening direction.
Automatically from the film container storage chamber by driving
The delivered film end is wrapped around the spool shaft,
Spool machine rather than film delivery speed by the above drive mechanism
It is controlled to increase the film winding speed depending on the structure.
The film container inside the film container
Since the film can be wound tightly,
The livestock power remaining inside the container is quickly absorbed, and the
It is possible to secure the flatness of the film in the exposed area.
You.

BRIEF DESCRIPTION OF THE DRAWINGS The drawings show an embodiment of a camera according to the present invention. FIG. 1 is a vertical sectional view of a cartridge chamber, FIG. 2 is an overall perspective view from below the camera, and FIG. FIG. 4 is a perspective view of the top of the cartridge chamber, FIGS. 5 (a) to 5 (c) are bottom views showing the internal structure of the camera, FIG. 6 is a perspective view of the drive transmission mechanism, and FIG. Is a circuit diagram of a motor drive circuit, FIGS. 8 (a) to 8 (c) are schematic diagrams showing a film loading operation, and FIGS. 9 (a) to 9 (c) are another embodiment of the cartridge rotation drive mechanism. Bottom view, FIGS. 10 (a) to 10 (c) are bottom views showing another embodiment of the cartridge chamber, FIG.
FIG. 10 is a sectional view showing a cartridge rotation driving mechanism for the cartridge chamber of the embodiment of FIGS. 10 (a) to 10 (c), and FIG. 12 is a bottom view showing another embodiment of the cartridge reverse rotation preventing mechanism. (F) ... Film, (Px) ... Winding shaft, (P) ... Film container, (6) ... Film container storage room, (PM) ...
… Drive mechanism, (29) …… Spool mechanism, (G1 to 26) ……
Control means.

   ────────────────────────────────────────────────── ─── Continuation of front page        Panel     Referee Takehiko Katayose     Judge Hidetomo Higashimori     Judge Kimio Yoshino                (56) References JP-A-60-46534 (JP, A)                 JP-A-60-166940 (JP, A)                 Japanese Patent Laid-Open No. 58-70219 (JP, A)

Claims (1)

(57) [Claims] In a device using a film container having a winding shaft around which a film is wound and a storage unit for storing the winding shaft, a film container storage chamber for storing the film container, and a film container storage chamber A drive mechanism for feeding the film end, and for automatically winding the film end around the spool shaft, engaging the winding shaft and driving the winding shaft in a direction to loosen the film; The spool mechanism including the spool shaft for winding the film sent out from the film container storage chamber, and the drive mechanism for tightening the film loosened in the film container storage chamber when the film reaches the spool mechanism. Control means for controlling the drive mechanism and the spool mechanism so that the film winding speed by the spool mechanism is faster than the film feeding speed, A film drive device comprising: