Zoom strobe device

A zoom strobe device having an illumination angle varying member which is movable in a direction of an optical axis and which has at least one light emitting tube, reflection shade and condenser lens. The position of the illumination angle varying member is controlled by a cam groove of a cam member which is moved in accordance with a zooming operation. An intermediate lever is provided between the cam member and the illumination angle varying member so as to rotate about a pivot. The intermediate lever is provided thereon with an association pin which is engaged in the cam groove of the cam member and an associated portion which is associated with the illumination angle varying member.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a zoom strobe device having an 
illumination angle varying mechanism. 
2. Description of Related Art 
A zoom strobe device in which an illumination angle varies in accordance 
with the focal length of a zooming lens is widely used in a zoom lens 
camera and particularly in a compact camera having a zoom photographing 
lens system and a separate zoom finder system. In such a zoom strobe 
device, at least one of a light emitting tube, reflection shade, and 
condenser lens constitutes an illumination angle varying member which 
moves in the optical axis direction to change the illumination angle. The 
illumination angle varying member is actuated by a cam mechanism. 
In a conventional zoom strobe device, since an associated pin provided on 
the illumination angle varying member is directly engaged in a cam groove 
of a cam member provided in a cam mechanism, the cam groove must have a 
large inclination angle in order to cause a relatively large displacement 
of the illumination angle varying member based upon a small displacement 
of the cam member. However, the large inclination angle of the cam groove 
may make it impossible to actuate the cam member. This is the reason that 
the cam member in a conventional zoom strobe device has a long cam groove 
having a small inclination angle, resulting in an increased displacement 
of the cam member. This becomes more serious particularly in a camera 
having a macro function at a TELE extremity in which the zoom lens moves 
from the TELE extremity to a macro-photographing position, since a 
relatively large displacement (advance) of the illumination angle varying 
member must be caused by a short cam groove to decrease the intensity of 
the strobe light at the macro-photographing position. 
SUMMARY OF THE INVENTION 
The primary object of the present invention is to provide a zoom strobe 
device in which a large displacement of the illumination angle varying 
member can be caused by a short cam length (cam groove). 
To achieve the object mentioned above, according to the present invention, 
there is provided a zoom strobe device having an illumination angle 
varying member comprising at least one of a light emitting tube, 
reflection shade and condenser lens and which is controlled by a cam 
groove of a cam member which is moved in accordance with a zooming 
operation, wherein the improvement comprises an intermediate lever which 
is provided between the cam member and the illumination angle varying 
member so as to rotate about a pivot, the intermediate lever being 
provided thereon with an association pin which is engaged in the cam 
groove of the cam member and an associated portion which is associated 
with the illumination angle varying member. 
Supposing that the distance between the pivot of the intermediate lever and 
the association pin is l1 and the distance between the pivot of the 
intermediate lever and the associated portion is l2, a large displacement 
of the illumination angle varying member in the optical axis direction can 
be caused by a slight movement of the cam member when l2 is larger than l1 
(l1&lt;l2). Namely, an enlarged axial component of the movement of the cam 
groove is transmitted to the illumination angle varying member. 
Accordingly the illumination angle varying member can be smoothly actuated 
by a small displacement of the cam member, thus resulting in a realization 
of a small and compact zoom strobe device.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
A zoom strobe device 10, FIG. 2 according to an embodiment of the present 
invention is supported by a strobe finder housing 11 together with a zoom 
finder device 30. Note that a zoom photographing lens, which is, as is 
well known, separately provided, is not shown in the drawings. 
The strobe finder housing 11 has a pair of vertical walls 11a and 11b, a 
bottom wall 11c which connects the vertical walls 11a and 11b at the lower 
portion thereof, and an upper wall 11d horizontally and outwardly 
extending from the upper end of the vertical wall 11b. The vertical walls 
11a and 11b and the bottom wall 11c define a chamber 12 in which the zoom 
finder device 30 is provided. The zoom strobe device 10 is received in a 
space defined by the vertical walls 11a and 11b and the upper wall 11d. 
A first movable lens frame 31, which holds a first lens L1, and a second 
movable lens frame 32, which holds a second lens L2, are located in this 
order in the chamber 12 when viewed from the front. Both frames 31 and 32 
are supported so as to move in the optical axis direction. In addition, 
third, fourth and fifth lenses L3, L4 and L5 are immovably located in the 
chamber 12 behind the second lens L2. The upper portions of the third, 
fourth and fifth lenses L3, L4 and L5 are covered by a finder cover 33. 
The first and second movable lens frames 31 and 32 are provided, on their 
upper portions, with association pins 31a and 32a, respectively. 
The upper wall 11d of the strobe finder housing 11 has a pair of guide 
holes 13 formed therein, which extend in parallel with the optical axis. 
Each of the guide holes 13 has a rear through hole portion 13a and a 
stepped portion which is formed by a lower portion having a decreased 
width to define a supporting surface 13b located in front of the through 
hole portion 13a, as shown in FIGS. 4.about.6. 
The zoom strobe device 10 has a fixed condenser lens (Fresnel lens) 14 and 
a light emitting block 15 which serves as an illumination angle varying 
member in the illustrated embodiment. The light emitting block 15 has a 
xenon tube (light emitting tube) 15a and a reflection shade 15b integral 
therewith. The light emitting block 15 is provided on its upper portion 
with a pair of hanging rails 16 which extend rearwardly from the light 
emitting block 15 in parallel with the optical axis to be fitted in the 
corresponding guide holes 13. The hanging rails 16 have stepped portions 
16a which can be engaged by the supporting surfaces 13b. One of the 
hanging rails 16 that is far from the zoom finder device 30 has an 
association pin 16b projecting from the upper surface thereof. 
Upon assembling of the light emitting block 15 onto the upper wall 11d of 
the finder strobe housing 11d, the hanging rails 16 are inserted in the 
through hole portions 13a of the associated guide holes 13 and are then 
moved forward, so that the stepped portions 16a can be engaged onto the 
supporting surfaces 13b. 
The positions of the light emitting block 15 and the first and second 
movable lens frames 31 and 32 of the zoom finder device 30 are controlled 
by cam grooves 20, 21 and 22 formed on a cam plate 18. The cam plate 18 is 
supported on a supporting plate 19 which is secured to the strobe finder 
housing 11 so as to linearly move in the right and left hand directions 
(lateral directions). The cam plate 18 has a moving direction restricting 
groove 18a formed therein which laterally extends, so that a pair of guide 
pins 19a secured to the supporting plate 19 are fitted. The supporting 
plate 19 has a projection 19b which is formed by cutting the plate on the 
opposite side to the moving direction restricting groove 18a to prevent 
the upward displacement (floating) of the cam plate 18, so that the cam 
plate 18 can be reciprocally moved in a lateral direction perpendicular to 
and not intersecting the optical axis. 
The cam plate 18 has a rack 18b which is provided on a downwardly bent rear 
portion of the cam plate and which is engaged by a terminal gear 23a of a 
drive mechanism 23. Consequently, the forward and reverse rotations of the 
terminal gear 23a cause the cam plate 18 to move right and left. The drive 
mechanism 23 is driven in association with the zooming operation of a zoom 
photographing optical system (not shown) to correspond the zoom 
photographing range to the finder field of view and the strobe 
illumination angle. 
The association pins 31a and 32a of the first and second movable lens 
frames 31 and 32 are directly engaged in the corresponding cam grooves 21 
and 22 of the cam plate 18. Accordingly, when the cam plate 18 moves right 
and left, the first movable lens frame 31 (first lens L1) and the second 
movable lens frame 32 (second lens L2) are moved in the optical axis 
direction in accordance with the profiles of the cam grooves 21 and 22 to 
change the finder field of view. 
On the other hand, the association pin 15 is engaged in the cam groove 20 
through an intermediate lever 24. The intermediate lever 24 is pivoted to 
the upper wall 11d of the strobe finder housing 11 by means of a shaft 
(pivot) 25. The intermediate lever 24 has an association pin 26 which is 
fitted in the cam groove 20 and a bifurcated association portion 27 in 
which the association pin 16b of the light emitting block 15 is fitted. 
The association pin 26 and the bifurcated association portion 27 are 
located on the opposite sides of the shaft 25. Distances l1 and l2 between 
the association pin 26 and the shaft 25 and between the bifurcated 
association portion 27 and the shaft 25 are such that l1&lt;l2, so that when 
the intermediate lever 24 rotates by the association pin 26, the movement 
of the association pin 26 is enlarged and transmitted to the bifurcated 
associated portion 27 (the light emitting block 15). 
Each of the cam grooves 20, 21 and 22 has a lens accommodating section 
.delta.1, zooming section .delta.2 and marco section .delta.3, as shown in 
FIG. 1 (only those of the cam groove 20 are shown in FIG. 1). It is 
necessary for the zooming section .delta.2 to cause a larger forward 
displacement M (FIG. 1) of the light emitting block 15 within a small 
displacement range of the cam groove 20, i.e. the macro section .delta.3 
(corresponding to a small axial distance m (&lt;M) in FIG. 1) to decrease the 
intensity of the strobe light when the zoom lens is moved from the TELE 
extremity to the macro photographing position. In this case, the WIDE 
extremity is located on the lens accommodating section side .delta.1. The 
above discussion can be also applied to the cam grooves 21 and 22. 
The zoom strobe device of the present invention operates as follows: 
When the cam plate 18 moves right and left, the first movable lens frame 31 
and the second movable lens frame 32 move directly in accordance with the 
profiles of the cam grooves 21 and 22 to make the finder field of view 
correspond to the zoom photographing range. On the other hand, the light 
emitting block 15 is moved in the optical axis direction through the 
intermediate lever 24 while enlarging the axial component of the 
displacement of the cam groove 20. Namely, as mentioned before, the 
association pin 26 provided on the intermediate lever 24 is fitted in the 
cam groove 20, and the association pin 16b of the light emitting block 15 
is associated with the bifurcated association portion 27 of the 
intermediate lever 24. Furthermore, the distance l1 between the 
association pin 26 and the shaft 25 is different from the distance l2 
between the bifurcated association portion 27 and the shaft 25 (l1&lt;l2). 
Accordingly, when the association pin 26 moves in the optical axis 
direction by distance m (FIG. 1), the light emitting block 15 moves in the 
opposite direction by the distance M(=(l2/l1).multidot.m). Therefore, even 
if the distance m is reduced, that is, even if the axial displacement m 
within the macro section .delta.3 of the cam groove 20 is reduced to 
decrease the inclination angle .theta. thereof, the necessary displacement 
of the light emitting block 15 can be provided. In other words, if the 
inclination angle .theta. is set, so that the cam plate 18 can be actuated 
with a small drive force, and if the lengths l 1 and l 2 are determined in 
accordance with the inclination angle .theta., the necessary axial 
displacement of the light emitting block 15 can be easily ensured. 
As can be seen from the foregoing, according to the present invention, in a 
zoom strobe device in which the illumination angle varying member is moved 
in the optical axis direction with the help of the cam groove, since the 
rotatable intermediate lever which has thereon the association pin 
engaging in the cam groove and the association portion associated with the 
illumination angle varying member is provided between the illumination 
angle varying member and the cam groove, the enlarged axial component of 
the displacement of the cam groove is transmitted to the illumination 
angle varying member by properly selecting the ratio of the distance 
between the pivot shaft of the intermediate lever and the association pin 
and the distance between the pivot shaft of the intermediate lever and the 
association portion. As a result, the short displacement of the cam member 
can actuate the illumination angle varying member, thus resulting in a 
smooth operation and a smaller zoom strobe device.