JP2521261Y2 - Camera shutter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention provides a shutter for a camera, in particular, a motor in which at least one of opening and closing of a shutter blade is driven based on an output of a photometry calculation sequence control circuit. Related to the shutter for the camera.

[Conventional technology]

In recent years, the demand for chargeless shutters has increased with the spread of zoom lens cameras and bifocal selection type cameras.
There are a type that performs a shutter operation using a stepping motor and a type that controls a shutter operation using a linear motor such as a servo motor. The former type has the advantage of performing stable operation against changes in external conditions such as changes in ambient temperature and changes in power supply voltage by making use of the self-position control function of the stepping motor, but the efficiency as an actuator is low. There is a drawback that it is not suitable for high speed shutters. On the other hand, the latter type has a high efficiency as an actuator and is suitable for a high-speed shutter, but the actuator characteristics greatly change in response to changes in external conditions as described above, and the shutter opening characteristics change. There is a drawback (see FIGS. 4A and 4B). Conventionally, as a means to correct such changes, various sensors are used and the output is fed back to make a systematic correction, or the circuit is corrected to drive the motor at a constant voltage or constant current in response to temperature changes and voltage fluctuations. The method of doing is being tried.

[Problems to be solved by the device]

However, none of the above conventional correction methods is perfect. The point was that no correction measures were taken for temperature changes in the mechanical part of the shutter. In general, the mechanical part of the shutter is made up of relatively small and thin parts, so changes in the friction coefficient of the sliding part and changes in the dimensions of each part due to temperature changes have a great influence on the movement of the mechanical part. In the case of a structure type in which the shutter blades are opened against the frictional force of the mechanical mechanism portion by the driving force of the motor, the influence is remarkable.

The present invention has been made in view of the above problems of the prior art, and an object of the present invention is to effectively correct a change in operating characteristics of a mechanical mechanism portion due to a change in ambient temperature. An object of the present invention is to provide a shutter for a camera equipped with an inexpensive correction means.

[Means for solving the problem]

In order to achieve the above object, the camera shutter according to the present invention uses a constant current for controlling the drive of a motor that controls at least one of opening and closing of shutter blades based on the calculation result of a photometry calculation sequence control circuit. A driver and a temperature-sensitive resistor connected to the constant current driver are provided.

[Action]

The sensitive resistor works to detect a change in ambient temperature and change the constant current value to be supplied from the constant current driver to the motor according to the ambient temperature to keep the aperture characteristic of the shutter blade constant.

〔Example〕

Hereinafter, the present invention will be described in detail with reference to one illustrated embodiment. 1 and 2, 1 is a shutter substrate having an exposure opening 1a, 2 is a shutter blade having a slot 2a pivotally supported by a pin 1b planted on the shutter substrate, and 3 is a shutter substrate. Planted pin 1c
The shutter blades 4 are pivotally supported by the shutter blade 3a and have a slot 3a. 4 is a servo motor as a drive motor mounted on a support plate (not shown) integrally installed with the shutter substrate 1. 5 is an output shaft of the servo motor 4. A drive pin, which is planted in a fixed rotating arm (not shown) and is commonly fitted to the slots 2a and 3a of the shutter blades 2 and 3, and 6 is stretched so as to give the shutter blade 2 a closing habit. A closing spring, 7 is arranged at a proper position of the camera body, and inputs information about subject brightness and ISO sensitivity to calculate an appropriate exposure time and a known photometry calculation sequence for controlling energization and cutoff of the drive motor 4. A control circuit 8 is connected between the photometry calculation sequence control circuit 7 and the drive motor 4, and controls the drive of the motor 4 based on the calculation result of the control circuit 7. For example, a constant current driver having a structure as shown in FIG. 3 is a temperature-sensitive resistor 9 which is installed at an appropriate place such as the shutter substrate 1 and connected to the constant current driver 8. In the constant current driver 8 of FIG. 3, when the base-emitter voltage of the transistor T ₁ is V _BE and the resistance value of the sensitive resistor 9 is R, the value of the constant current flowing between the emitter and collector of the transistor T ₂ during operation. That is, the magnitude i of the drive current supplied to the motor 4 is (V _E −
V _BE ) / R. In this case, the resistance value R of the temperature sensitive resistor 9 changes substantially in proportion to the ambient temperature.

Since the proposed shutter is configured as described above,
When a shutter button (not shown) is pressed for photographing, the control circuit 7 is activated and outputs a signal to the constant current driver 8 to activate the driver 8. In this case, the value i of the drive current supplied to the drive motor 4 is determined by the above equation according to the ambient temperature at that time. Thus, when the drive current i is supplied to the motor 4, the drive pin 5 is
From the start position (the position corresponding to the closing position of the shutter blades 2 and 3) shown by the broken line in the figure to the position shown in the figure, the motor is turned clockwise with the torque determined by the current value i. Due to this clockwise rotation of the drive pin 5, the shutter blade 2 is rotated counterclockwise around the pin 1b against the closing spring 6 and the shutter blade 3 is rotated clockwise around the pin 1c to expose the opening as shown. Open 1a to start exposure. Thus,
When the proper exposure time calculated in consideration of the subject brightness and ISO sensitivity has elapsed, the control circuit 7 outputs a signal for stopping the operation of the constant current driver 8, and the motor 4
Cut off the supply of current to the. Therefore, the shutter blade 2
The springs 3 and 3 are returned to the closed position by the elastic force of the closing spring 6, and the drive pin 5 is also returned to the start position, and one exposure operation is completed. In this case, if the ambient temperature is in the normal temperature range, for example, the shutter opening characteristic shown by the solid line in FIG. 4 is exhibited, but if the ambient temperature rises beyond the normal temperature range, the sliding resistance etc. at various parts of the movable part is increased. As the drive current does not change, the traveling speed of the shutter blades 2 and 3 increases and exhibits the opening characteristics as shown by the chain line in FIG. 4, and the ambient temperature drops below the normal temperature range. If the magnitude of the drive current does not change, the traveling speed of the shutter blades 2 and 3 will decrease and the opening characteristics shown by the broken line in FIG. In any case, proper exposure cannot be obtained. However, according to the present invention, when the ambient temperature rises due to the temperature sensitive resistor 9, the drive current to the motor 4 decreases, and when the ambient temperature decreases, the drive current increases, so that the drive current changes according to the change of the ambient temperature. The torque of the motor 4 changes, which results in canceling the above-mentioned changes in the sliding resistance and the like. Generally, in the constant current control of the drive motor as described above, unlike the case of the constant voltage control, there is no adverse effect on the change of the drive current due to the inductance of the exciting coil of the motor. By appropriately selecting the temperature characteristic of No. 9, the opening characteristic of the shutter can always be kept constant regardless of the change of the ambient temperature.

As described above, in the embodiment, only the opening operation of the shutter blade is controlled by the drive motor, but the present invention is not limited to this, and the opening operation of the shutter blade is performed by the ammunition means and the closing operation is performed. It goes without saying that the present invention can also be applied to a shutter of a type in which a drive motor is controlled, and a type in which opening / closing operations of shutter blades are controlled by a drive motor.

[Effect of device]

As described above, according to the present invention, in a camera shutter in which at least one of opening and closing operations of shutter blades is controlled by a motor, it is possible to always maintain a constant opening characteristic regardless of changes in ambient temperature. Therefore, the use range of this type of shutter can be further expanded.

[Brief description of drawings]

FIG. 1 is a plan view of an essential part showing an embodiment of a shutter according to the present invention, FIG. 2 is a block diagram of an electric circuit portion, FIG. 3 is a detailed circuit diagram of a constant current driver, FIG. 4 (A) and ( FIG. 9B is an explanatory diagram showing a change in shutter opening characteristic with respect to a change in ambient temperature. 1 ... Shutter substrate, 2, 3 ... Shutter blades, 4 ...
… Motor, 5 …… Drive pin, 6 …… Closed spring, 7 ……
Photometric calculation sequence control circuit, 8 ... Constant current driver, 9 ... Temperature sensitive resistor.

Claims (1)

(57) [Scope of utility model registration request] 1. A camera shutter in which at least one of opening and closing operations of shutter blades is controlled by a motor driven based on an output from a photometry calculation sequence control circuit, and the calculation of the photometry calculation sequence control circuit is performed. A constant current driver for controlling the drive of the motor based on the result, and a temperature sensitive resistor connected to the constant current driver are provided, and in order to keep the opening characteristic of the shutter blades constant, the temperature sensitive resistor A camera shutter characterized in that the constant current value to be supplied to the motor is changed according to the ambient temperature.