JPH0438340Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of industrial application) The invention relates to a film winding mechanism for a camera.
In particular, the invention relates to a winding mechanism that corrects changes in film feed speed due to thickening of the spool.

(Prior art) In cameras using film without perforation, a roller or the like that comes into contact with the film surface is used to detect the amount of film winding, as disclosed in Japanese Utility Model Publication No. 32-3155. It is known that the winding amount is displayed on a scale plate by displacing a pointer in relation to a lever supporting a roller or the like. Furthermore, the amount of rotation of the roller that comes into contact with the film surface is detected by generating pulses using a code plate installed coaxially with the roller and counting the number of pulses. Mechanisms that do this have also been proposed.

The former mechanism, which detects the amount of film winding using a pointer and a scale plate, simply detects the amount of film winding visually, and is not practical because it does not provide a means for interlocking and stopping the film winding motor. Ta. In the latter example, the amount of film travel is converted into pulses to detect a predetermined amount, so if the film winding speed is constant, it is possible to accurately detect the predetermined amount and stop the film from winding. However, in reality, due to the thickening of the film spool, the winding speed increases as winding progresses even at the same rotation angle of the spool, and the feed speed at the start and end of winding differs by about twice. For this reason, the inertia of film winding and the stopping precision of the motor impair the precision of film winding and stopping.If the amount of film winding is small, the screens will overlap, and if there is a large amount of film winding, there will be insufficient film at the final frame and the predetermined number of frames will be reduced. The drawback was that it made it impossible to take pictures. This problem has been particularly serious when a long film without perforation is used.

(Purpose of the invention) The present invention has been made in view of the above-mentioned problems, and provides a film winding mechanism that can improve the accuracy of the film winding position by making the film winding speed constant. The purpose is to

(Structure of the invention) In the film winding mechanism of the invention, a winding diameter detecting member is brought into contact with the film wound on a film supply or winding spool, and this winding diameter detecting member is displaced depending on the winding diameter of the film. The amount of displacement is converted into an electrical signal, and this electrical signal is used to control the rotational speed of the motor that rotates the take-up spool via a control circuit so that the film feeding speed is constant. It is something.

(Effect of the invention) According to the film winding mechanism of the present invention configured as described above, even if the film is wound onto the take-up spool and the winding diameter increases, the film does not come into contact with the take-up spool. When the detection member is displaced, the rotational speed of the motor is slowed down via the control circuit by an electric signal corresponding to the amount of displacement, so the circumferential speed of the spool remains constant and the amount of film taken up is always constant. Therefore, the accuracy of the film winding position can be improved.

(Example) An example of the present invention will be described below with reference to the drawings.

The structure of this embodiment is shown in the drawing. A film take-up spool 2 and a film supply spool 3 are rotatably provided in the camera body or film bag 1, and a film 6 is suspended between them with a constant tension via guide rollers 4 and 5. ing. A winding diameter detecting roller 7 is provided so as to be in contact with the outermost peripheral surface of the film 6 wound on the film winding spool 2, and this winding diameter detecting roller 7 is rotatably mounted on a shaft 8. It is rotatably supported by a supported lever 9. On the opposite side of the lever 9 from the winding diameter detection roller 7 with respect to the shaft 8, an arm 12 is integrally formed with the lever 9, and has a rotating brush 11 that makes sliding contact with the potentiometer 10. At the center of rotation of the lever 9 on the shaft 8, a pointer 13 for displaying the amount of winding is integrally formed approximately at right angles to the lever 9. A scale plate 14 of a winding amount external display meter is provided at a position aligned with the tip of the pointer 13, so that the film winding amount can be visually checked from the outside. Furthermore, the lever 9 is biased counterclockwise in the figure by a spring 15 so that the roller 7 comes into contact with the surface of the film 6 taken up on the take-up spool 2. The potentiometer 10 is set so that a decrease in its resistance value is inversely proportional to an increase in the film winding diameter of the take-up spool 2 via a brush 11.

Next, the configuration of the control circuit 17 that controls the rotational speed of the motor 16 that rotates the take-up spool 2 by changing the resistance value of the potentiometer 10 will be explained.
A voltage V is applied to both poles of the potentiometer 10 by a power supply 18, and an output voltage V ₁ proportional to a resistance value R ₁ that changes depending on the position of the brush 11 is input to a positive terminal of an operational amplifier 19. The output of this operational amplifier 19 is connected to the power supply 18 via a resistor R ₂ and further connected to the base of a control transistor 20 via a resistor R ₃ . This transistor 20 is connected to the motor 1 from the positive side of the power supply 18.
6 to the collector of the transistor 20, and its emitter is connected to the negative side of the power supply ₁₈ via a resistor R4. Also, the connection point 21 between the emitter end of the transistor 20 and the resistor _R4 is connected to the operational amplifier 19.
is input to the negative terminal of.

The operation of the film winding mechanism of this embodiment constructed as described above will be described below. As the film 6 is wound onto the take-up spool 2, the lever 9 is moved to the shaft 8 via the film winding diameter detection roller 7.
The voltage at the output end of the operational amplifier 19 flows through the control transistor 20, with the output voltage when the resistance value of the potentiometer 10 becomes _R1 through the brush 11 as _V1 . The current I flows through the resistor _R4 , and the voltage drop due to this resistor _R4 , that is, the voltage at the connection point 21 with the emitter terminal
The output voltage of the operational amplifier 19 is determined so that V ₂ is equal to the voltage V ₁ of the potentiometer 10. That is, it is set so that V ₁ =V ₂ =R ₄ ×I. Further, the current I flowing through the transistor 20 is proportional to the output voltage V ₁ of the potentiometer 10. This current I flows through the drive motor 16 of the take-up spool 2, and is controlled so that the rotational speed of this drive motor 16 varies depending on the output voltage _V1 of the potentiometer 10. Therefore, the output voltage V ₁ of the potentiometer 10 is inversely proportional to the film winding diameter of the take-up spool 2, and the circuit operates in such a way that the rotation speed of the drive motor 16 decreases as the film winding diameter increases. Even if the film winding diameter increases, the rotation of the motor 16 is slowed down, and the amount of film winding can always be kept constant.
Also, by reading the scale indicated on the scale plate 14 by the pointer 13 fixed to the lever 9,
You can read the winding amount. Furthermore, by reversing F and E on the scale plate 14, the remaining amount of film can be displayed.

As is clear from the above explanation, since the increase/decrease curve of the resistance value _R1 of the potentiometer 10 is offset by the increase/decrease in the spool circumferential speed due to increase/decrease in the film winding diameter, the film winding speed is always constant and the film winding speed is always constant. The accuracy of winding stop is improved and the feeding accuracy of one frame is improved. In addition, since the film winding speed is constant, it becomes easier to measure the film winding length and perform other measurements and controls. It is possible to prevent the discomfort caused by the minute feed time changing drastically.

In the above-described embodiment, the film winding diameter is detected on the take-up spool side, but it may be detected on the supply spool side. Furthermore, in this embodiment, a case has been described in which the motor rotational speed is controlled by converting an increase or decrease in the film winding diameter into an increase or decrease in the resistance value of the potentiometer 10. Needless to say, it is effective.

[Brief explanation of the drawing]

The drawing is a configuration diagram showing an embodiment of a film winding mechanism according to the present invention. 2... Film take-up spool, 3... Film supply spool, 6... Film, 7... Winding diameter detection roller, 9... Lever, 10... Potentiometer, 13... Pointer, 14... Scale plate , 16...
Motor, 17... Control circuit, 18... Power supply, 19
... operational amplifier, 20 ... control transistor.

Claims (1)

[Claims for Utility Model Registration] 1. In a film winding mechanism for a camera comprising a film supply spool and a film take-up spool driven by a motor to wind the film, either the film supply spool or the film take-up spool a winding diameter detection member that contacts the surface of the film wound on one side; a conversion member that converts the displacement of this detection member into an electrical signal; and a rotational speed of the motor for rotating the film winding spool based on the electrical signal. A film winding mechanism comprising a control circuit that controls the film feed speed to be constant. 2. The film winding mechanism according to claim 1, wherein the converting member is a potentiometer. 3. The film winding mechanism according to claim 1, wherein the detection member is provided with a pointer for displaying the remaining amount of film.