JPH0532806Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field] The present invention relates to a lens shutter type zoom lens camera, and particularly to a code plate for obtaining positional information of the photographing optical system.

"Prior Art and its Problems" The present applicant has previously proposed a lens shutter type zoom lens camera driven by a zoom motor (Japanese Patent Application No. 108278/1982). In this lens shutter type camera, the lens group constituting the photographing optical system is moved in the optical axis direction by rotation of a motor-driven cam ring, and the photographing optical system changes the focal length in the zoom section and Move from one focal length end (wide-angle end) of the zoom section to the lens storage position further back. In this lens shutter type zoom lens camera, the barrier (lens cap) is opened and closed while the photographing optical system moves between the zoom zone and the storage position. In this camera, it is necessary to detect and identify by some means not only the focal length information of the photographic optical system in the zoom section, but also the fact that the photographic optical system is between the zoom section and the storage section. For example, this is to prevent the zoom motor from stopping during the opening/closing of the barrier mechanism.

"Purpose of the invention" The present invention provides a lens shutter type zoom lens camera in which the photographing optical system has a zoom section and a storage section, in which the photographing optical system identifies that it is between the zoom section and the storage section, The purpose of this identification section is to prohibit stopping the motor drive.

``Summary of the invention'' This invention uses a code plate that detects focal length information of the photographing optical system to detect when the photographing optical system is between the zoom zone and the storage zone, and the motor drive is stopped during that time. is prohibited.

In other words, the present invention provides a lens shutter type zoom lens camera equipped with a photographing optical system consisting of a zoom lens system, which includes a zoom section in which the focal length of the constituent lens groups of the photographic optical system is changed, and a zoom section in which the focal length of the constituent lens groups of the photographic optical system is changed; A motor-driven electric cam mechanism is provided to move the lens to a storage position located at the rear, and a code plate is provided to obtain focal length information from the constituent lens groups that are moved forward and backward by the electric cam mechanism. Continuing with the interval from which focal length information is obtained, an identification interval is provided to identify when the constituent lens groups reach the storage position from the zoom interval, and when the photographic optical system is in this identification interval, stopping the motor drive is prohibited. It is a feature.

``Embodiments of the invention'' The invention will be described below with reference to illustrated embodiments. As shown schematically in Figure 1, this lens shutter type camera consists of a lens barrel block 1 of a zoom lens, a viewfinder and a strobe block 2, a light emitting section 3 and a light receiving section 4 of a distance measuring device (AF device), and a zoom lens. It is equipped with a zoom motor 5 for use. These elements are attached to the base plate 6, which is the fixed part of the camera body.
(See Figures 9 to 11).

That is, the base plate 6 includes a lens barrel support plate portion 6a that is perpendicular to the optical axis, a horizontal support plate portion 6b that is formed by bending the upper end of the lens barrel support plate portion 6a at a right angle, and a horizontal support plate portion 6b that is perpendicular to the optical axis. Motor support plate portion 6c forming a right angle with
The lens barrel block 1 is supported by the lens barrel support plate portion 6a. Also, the motor support plate portion 6c
A zoom motor 5 located at the upper center of the lens barrel block 1 is fixed to the lens barrel block 1, and a light emitting section 3 and a light receiving section 4 fixed to a horizontal support plate section 6b are located on both sides of the zoom motor 5. The finder and strobe block 2 are fixed to the front right side of this horizontal support plate portion 6b. 6e is a gear train support plate fixed to the motor support plate portion 6c via a spacer 6f.

The lens barrel block 1 is driven by a zoom motor 5, and is shown in FIGS. 1, 12, and 14.
It has the configuration shown in the figure. The lens barrel block 1 of this embodiment is capable of zooming and macro photography. A rear fixing plate 11 is fixed to the lens barrel support plate portion 6a of the base plate 6 via fixing screws 10. Four guide rods 12 are fixed to the rear fixing plate 11 and are located parallel to and around the optical axis, and a front fixing plate 13 is fixed to the tips of the guide rods 12. The above are the main fixing elements of the lens barrel block 1.

A cam ring 14 is rotatably supported between the rear fixing plate 11 and the front fixing plate 13, and a gear 15 that engages with the pinion 7 directly or through a gear train is attached to the outer periphery of the cam ring 14 with a fixing screw 15a.
(Fig. 12). This gear 15 is
A sector gear that covers the rotation range of the cam ring 14 may be used. The cam ring 14 has zooming cam grooves 20 and 21 for the front group and the rear group.

FIG. 13 is a developed view of the zooming cam grooves 20 and 21. The zooming cam groove 21 for the rear group has a wide-angle end fixed section 21a, a variable power section 21b, and a telephoto end fixed section 21c. On the other hand, the zooming cam groove 20 for the front group includes an opening/closing section 20a of the barrier block 30, a lens storage section 20b, a wide-angle end fixed section 20c, a variable power section 20d, and a telephoto end fixed section 20.
e, a macro feeding section 20f, and a macro end fixed section 20g. The rotation angle of each section is the barrier opening/closing section 2 of the zooming cam groove 20.
0a, the lens housing section 20b, and the wide-angle end fixing section 20c.
The angle θ1 of the wide-angle end fixed section 21a of No. 1 is the same, the angle θ2 of the variable power section 20d and the variable power section 21b is the same, and the sum of the telephoto end fixed section 20e, the macro feed section 20f, and the macro fixed section 20g. The angle θ3 is the same as the angle θ3 of the telephoto end fixed section 21c. The barrier block 30 opens and closes a pair of barriers 31 by rotating the barrier opening/closing section 20a of the cam ring 14.

A roller 17 of a front lens barrel 16 and a roller 19 of a rear lens barrel 18, which are movably fitted to the guide rod 12, are fitted into the zooming cam grooves 20 and 21. Retractable lens barrel 16
The reciprocating lens barrel 1 is inserted through the fixing screw 22a.
A decorative frame 22 constituting a part of the shutter 6 is fixed, and a shutter block 23 is also fixed. The front group lens frame 24 holding the front group lens L1 is threadedly engaged with the shutter block 23 by a helicoid 25, and has an arm 24a that engages with a lens extension lever 23a of the shutter block 23. Therefore, when the lens advancing lever 23a rotates in the circumferential direction and the front group lens frame 24 rotates accordingly, the front group lens frame 24 moves in the optical axis direction following the helicoid 25. The rear group lens L2 is
It is directly fixed to the rear group reciprocating lens barrel 18.

Shutter block 23 itself is well known. The built-in pulse motor rotates the lens extension lever 23a by an angle corresponding to the distance measurement signal from the distance measurement device having the light emitting section 3 and the light receiving section 4, and further closes the shutter (sector) 2.
3b is opened for a predetermined time and then closed again, and then the lens feeding lever 23a is returned to its original position.

In a lens shutter type zoom lens camera with the above macro photography function, the focal length of the zoom lens in lens barrel block 1 changes, the aperture F value changes with the change in focal length, and the lens has a wide-angle (WIDE) lens. ) at the edge, telephoto (telephoto,
It automatically detects information such as being at the end of the camera (TELE), in the storage position, and in the macro (MACRO) shooting position, and using this information to control exposure, control the rotation direction of the zoom motor 5, etc. It is necessary to contribute.

In order to detect this lens position, a single code plate 90 is fixedly provided on the outer periphery of the cam ring 14 of the lens barrel block 1, as conceptually shown in FIG.
A base end of a brush 92 that comes into sliding contact with the code plate 90 is fixed to a fixed frame 91 on the outside of the cam ring 14. FIG. 2 is a developed view of the code plate 90.
Above this figure, the zooming cam grooves 20 and 21 of the cam ring 14 and each cam groove 5 of the cam plate 53 are shown.
Cam profiles 5, 56, and 57 are drawn together. The brush 92 has a common terminal C, and terminals T0, T1, T2, and T3 labeled 0, 1, 2, and 3.
When these terminals T0 to T3 are in contact with the conductive land 93 of the code plate 90, a signal of "φ" is taken out, and when they are not in contact, a signal of "1" is taken out, and these "1" , "φ", the rotational position of the cam ring 14 is detected. 94 is
This is a dummy terminal provided between the conductive lands 93.

The above 4-bit information of T0, T1, T2, and T3 is given as zoom code data ZP0, ZP1, ZP2, and ZP3 of the zoom code encoder.
Figure 3 shows these zoom code data “1”,
This is a combination table of "φ", and in this example, the rotation position (POS) of the cam ring 14 is changed from "φ" to "9".
up to and “A”, “B”, “C” (hexadecimal,
Detection is performed in 13 stages (hexadecimal number). "0" is the lock position, "C" is the macro (MACRO) position, and there are different focal length positions f ₀ to f7' in between. The lock position and the macro position are both rotation ends of the cam ring 14, and the zoom motor 5 is controlled so that the cam ring 14 does not rotate beyond these rotation positions. These pivot positions (POS) are also drawn below the code plate in Figure 2.

One of the features of the present invention is that the code plate 90 for obtaining focal length information is used to identify when the zoom lens is moving from the zoom section to the storage section and when it is moving from the zoom section to the macro position. Therefore, the wide end of the zoom section (f ₀ , POS 2) and the storage position (LOCK, POS 0)
POS 1 is installed between the telephoto end (f ₇ ′, POS
POS B is installed between A) and A).

Rotation control of the cam ring 14 is performed by the mode changeover switch 101 and the zoom switch 102, using the position information of the cam ring 14 provided by the code plate 90. FIGS. 4 to 6 show specific examples of the arrangement of both switches 101 and 102 with respect to the camera body. Furthermore, 99
is the release button, press it once to turn the metering switch.
Turn it on, then press it two steps to turn on the release switch.

The mode changeover switch 101 is set to LOCK.
This is a transfer switch that can take three positions: zoom (ZOOM) and macro (MACRO). As shown in Figures 6 to 8, when the macro button 101a is not pressed, the switch lever 101b is locked. It is possible to move between the position and the ZOOM position, and the macro button 101a
While pressing , slide the switch lever 101b onto the macro button 101a.
MACRO position. And I can't release the camera in the LOCK position, and the zoom doesn't work either. ZOOM
In the MACRO position, the release and zoom operations are possible, and in the MACRO position, the release is possible but the zoom operation is not possible.

In addition, the zoom switch 102 takes the neutral (OFF) position with the user's hand removed, and by applying operating force in different directions, the zoom switch 102 switches between wide-angle (WIDE) and telephoto (TELE). 5 rotates forward and backward.

The mode changeover switch 101 and zoom switch 102 basically operate the camera of the present invention as follows. In this operation, rotational position information (hereinafter referred to as POS) of the cam ring 14 by the code plate 90 is used.

1 When the mode selector switch 101 is switched to the LOCK position, the zoom motor 5 rotates in the opposite direction, and the rotational position (hereinafter referred to as POS) of the cam ring 14 detected by the code plate 90 and brush 92 reaches "φ" ( Figure 2,
3), the zoom motor 5 stops. In other words, the area between the wide end (POS 2) and the stored position (POS 0) (from the zoom section to the stored position) is identified by POS 1, and this
During POS 1, the zoom motor 5 does not stop.

2. When the mode selector switch 101 is in the MACRO position, the zoom motor 5 rotates forward, and when POS becomes "C", the zoom motor 5 stops. In other words, between the telephoto end (POS A) and the macro position (POS C) (from the zoom section to the macro position),
identified by POS B, and during this POS B,
The zoom motor 5 does not stop.

3 When the mode selector switch 101 is in the ZOOM position When the zoom switch 102 is in the WIDE position, the zoom motor 5 rotates in reverse, and in the TELE position, it rotates in the forward direction. and
During TELE, the zoom motor 5 stops when POS becomes "A". In the case of WIDE, the zoom motor 5 continues to rotate in reverse for a short time after POS becomes "1", and then rotates forward and stops when POS becomes "2".

Furthermore, if the zoom switch 102 is turned OFF (located at the neutral position) while the zoom motor 5 is rotating,
When the zoom motor 5 is in the TELE direction (forward rotation), it stops immediately, and when it is in the WIDE direction (reverse rotation), it rotates forward for a certain period of time and then stops.

In conjunction with the above explanation, the meaning of POS is further clarified as follows.

POS1: The code changes when the LOCK position is reached, and the code changes similarly when the WIDE end is reached, so the LOCK and WIDE ends are detected, but the LOCK position is not exactly POS0, POS0 and POS1
(However, the camera is locked)
When the brush on the cord board is
at POS0, which is very close to POS1). WIDE end is also POS1
This is a change point for POS2. However, the camera is at the WIDE end (not in the WIDE zone)
When the cord plate brush is
It is located at POS2, very close to POS1. So POS1 is cam ring 1
4 indicates the section when moving from the WIDE end to LOCK or vice versa.

POSf7': This is the section required to maintain the backlash of the cam ring 14 (lens system). That is, as shown in Figure 3,
When the cam ring 14 rotates from the POS0 side to the POSC direction, the cam ring 14 stops immediately when a step signal is given (when the zoom switch is turned off), but conversely, the cam ring 14 rotates from the POS0 side to the POS0 side. When rotating, the cam ring is overrun, then slightly reversed, and stopped at the first POS change point. And this
POSf7' is the TELE end, and the cam ring 14 is the TELE end (YELE zone; TELE
This means that there is a brush on the code plate in POSA, which is extremely close to POS9. On the shutter side, focal length information or aperture information is provided by the code board output.
Send value information, but with TELE zone
At the TELE end, the signal is sent with the same focal length, so set POS9 to f7,
POSA was set to f7′. The f7′ zone is extremely narrow, and basically the entire f7′ range can be used as the TELE end.

POSB: Like POS1, this is a zone created to separate the MACRO and TELE ends.
The difference with POS1 is that the WIDE end is the switching point with POS1, while the TELE end is
Switching points between POS9 and POSA, and POSA
It is to be.

POS2 to POSA; These are intermediate focal lengths set in multiple stages (9 stages in this example).

When the circuit is powered up, the computer checks each switch's settings and code board information. If the switch is ZOOM, cam ring 14
If it is in the POS2 to POSA position, there is no need to operate the zoom, but in other LOCK positions, LOCK
and WIDE, between TELE and MACRO,
If it is MACRO, immediately move to the ZOOM zone. This occurs during forward rotation of the zoom motor.
When in ZOOM position, during reversal
The same goes for the ZOOM position.
In other words, when you get into the ZOOM position,
Range of ZOOM codes allowed by ZOOM POS2
~Check if it is in POSA, and if it is not within the allowed range, it is not a position where you can take a photo, so immediately move it to the ZOOM position.

In other words, POS1 and POSB indicate locations where the mechanism is changing and must not be stopped in this zone, that is, areas where stopping is prohibited where photographs cannot be taken.

Finally, the finder device 8 and strobe device 9 of the finder block 2 shown in FIG. 1 will be briefly explained. Both the finder device 8 and the strobe device 9 change the viewfinder field of view and change the illumination angle (light intensity) of the strobe in conjunction with changes in the focal length of the lens barrel block 1.
A zoom motor 5 is used as a power source for this purpose. A pinion 50, which is different from the pinion 7, is engaged with the gear 15 of the cam ring 14, and the shaft 51 of this pinion 50 is extended to the rear of the base plate 6, and a reduction gear train 52 is provided at its rear end. It is being The final gear 52a of the reduction gear train 52 meshes with a rack 53a of the cam plate 53. Cam plate 5
3 is slidable in the left-right direction, and a rack 53a is integrally provided at the tip (lower end) of a lower bent portion 53b at the rear end. The reduction gear train 52 reduces the rotation of the gear 15, reduces the movement of the cam ring 14, and applies the reduced movement to the cam plate 53. The cam plate 53 is provided with a variable power cam groove 55 for the finder device 8, a parallax correction cam groove 56, and a strobe cam groove 57 for the strobe device 9.

The lens system of the finder device 8 is basically as follows:
It consists of a fixed subject side lens group L3, an eyepiece lens group L4, and a movable variable magnification lens group L5,
Furthermore, it is provided with a deflection prism P1 for macro photography. The variable magnification lens group L5 matches the image taken by the variable magnification operation of the lens barrel block 1 with the field of view provided by the finder device 8, and the deflection prism P1 is advanced onto the optical axis only during macro photography to particularly eliminate parallax. to correct. In other words, as mentioned above, parallax is unavoidable in lens-shutter cameras, and the amount of parallax increases the closer you shoot.
The camera of this example is capable of macro photography,
At this time, since the amount of parallax increases, only during macro photography, a wedge-shaped deflection prism P1 that is thicker at the bottom and thinner at the top is inserted into the optical path to bend the optical path downward, making it possible to observe areas closer to the photographed area. That's what I do.

"Effects of the Invention" As described above, the present invention uses a code plate to detect focal length information of the photographing optical system in a motor-driven lens shutter type zoom lens camera.
Since this photographing optical system detects that it is between the zoom section and the storage section and prohibits the mode drive from stopping during that period, it is possible to perform specific operations between the zoom section and the storage section, such as opening and closing the lens barrier. The operation can be performed reliably without being stopped midway, or photography can be prevented from being taken in this section.

Furthermore, the present invention has an identification section on the code plate that is continuous with the section for obtaining the focal length information of the photographic optical system and identifies the period from the zoom section to the retracted position of the constituent lens groups. on the code board,
It is possible to obtain focal length information and an identification section in which stopping of the zoom motor is prohibited. Since the focal length information and the identification section are continuous information of the zoom photographing optical system, the relationship between the two can be accurately grasped, and the information is information before and after the identification section. The lens storage position can be made to correspond accurately to one focal length end (shortest focal length).

[Brief explanation of the drawing]

Fig. 1 is a perspective view of the main parts showing an embodiment of the lens shutter type zoom lens camera of the present invention, Fig. 2 is a developed view of the code plate, and Fig. 3 is the zoom code using the code plate of Fig. 2 and the stop caused by it. Figures 4, 5, and 6 are front views, rear views, and plan views showing examples of the arrangement of each operation switch used in the camera of the present invention; Figures 7 and 8 are modes. Fig. 9 is a front view of the base plate fixed to the camera body, Fig. 10 is a plan view of the same, and Fig. 11 is the same as Fig. 9. A sectional view taken along the line XI-XI, Fig. 12 is a sectional view of the lens barrel block, Fig. 13 is an exploded view of the cam ring, and Fig. 14 is an exploded perspective view of the main parts of a lens shutter type camera to which the present invention is applied. be. L1...Front group lens, L2...Rear group lens, 1
... Lens barrel block, 2 ... Finder and strobe block, 5 ... Zoom motor, 8 ... Finder device, 14 ... Cam ring, 20, 21 ...
...zooming cam groove, 16...advancing/retracting lens tube for front group, decorative frame 22...decorative frame (advancing/retracting lens tube), 18...
...Advancing/retracting lens barrel for rear group, 90... Code plate, 92
... Brush, 93 ... Continuity land, 94 ... Dummy terminal, 101 ... Mode changeover switch 101,
Macro button...101, zoom switch...1
02.

Claims (1)

[Scope of Claim for Utility Model Registration] In a lens shutter type zoom lens camera equipped with a photographing optical system consisting of a zoom lens system, a zoom section in which the focal length of the constituent lens group of the photographic optical system is changed, and A motor-driven electric cam mechanism is provided to move the constituent lens groups to a storage position located at the rear, and a code plate is provided to obtain focal length information of the constituent lens groups that are moved forward and backward by the electric cam mechanism. Continuing with the interval for obtaining the focal length information, an identification interval is provided to identify the period during which the component lens group reaches the storage position from the zoom interval, and when the photographing optical system is in this identification interval, the motor drive is activated. A lens shutter type zoom lens camera characterized by prohibiting stopping.