JPH05328186A - Focus adjustment device - Google Patents

Abstract

PURPOSE:To achieve smooth rotation of gears, to reduce the wear of the gears, to ensure the meshing of gears, to prevent the mis-meshing of the gears and to improve the strength of the gears when the focus of lenses is adjusted by the gears while tilting a camera to the vertical direction to pick up an object surely. CONSTITUTION:In the focus adjustment device comprising a lens gear 42 to move a lens 41 and a focus adjustment gear 44 to drive the lens gear 42, the clearance between the lens gear 42 and the focus adjustment gear 44 is increased. The module of the gear tooth is increased by making the teeth thickness or a teeth width of one or both the lens gear 42 and the focus adjustment gear 44 as means increasing the clearance thin, increasing the radius of curvature of the corner or the gears or increasing the inter-axis distance of both the gears.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a focus adjusting device for a camera device.

[0002]

2. Description of the Related Art A video device such as a videophone which handles an image signal has a camera device for forming the image signal in the device. The camera device makes two adjustments to accurately capture the subject. One adjustment is focus adjustment, which is performed by moving the lens of the camera device back and forth. The other adjustment is an adjustment for accurately positioning the subject within the image, and is performed by an operation such as pointing the camera device toward the subject.

A videophone will be described as an example of a video device that handles image signals. 4 is a front view of the videophone, and FIG. 5 is a side view of the videophone. The videophone has a telephone body 4, a handset 5, an operation surface 6, and a display unit 1. The display unit 1 is installed so that the tilt angle of the display surface 3 can be changed with respect to the pillar 20 attached to the main body of the telephone 4. A camera device 40 is attached to the pillar 20, and a mechanism for focus adjustment and a mechanism for tilt adjustment are provided so that the two adjustments can be performed. The mechanism for focus adjustment includes a lens gear attached to the lens of the camera device 40, a focus adjustment gear provided on the pillar 20 that rotates the lens gear, and a focus adjustment dial.
On the other hand, the mechanism for tilt adjustment includes a support shaft that pivotally supports the camera device 40 with respect to the pillar 20, and an adjustment knob that tilts the camera device 40.
The camera device 40 is provided by the mechanism for tilt adjustment.
The lens 41 is directed toward a subject such as an operator. The orientation of the lens 41 of the camera device 40 is achieved by changing the tilt angle so that the mounting angle of the camera device 40 to the pillar 20 changes. For example, when the subject is above the height of the lens of the camera device 40 of the videophone, the tilt angle of the camera device 40 is set to the direction of the alternate long and short dash line 60 as shown in FIG.
Further, when the subject is below or in the horizontal direction with respect to the height of the lens of the camera device 40 of the videophone, the camera device 40 is tilted so that the tilt angle of the camera device 40 is in the direction of the alternate long and short dash line 61. ..

Conventionally, as described above, in the case where the focus of the lens is simultaneously adjusted by the gear while tilting the camera in the vertical direction in order to surely capture the subject, the lens gear attached to the lens of the camera device 40 is used. The clearance between the two gears, which is the focus adjustment gear for rotating the lens gear, is the clearance when normal tilt is not taken into consideration.

[0005]

However, the above-mentioned configuration of the lens gear and the focus adjusting gear has the following problems. FIG. 6 is a positional relationship diagram between a conventional lens gear and a focus adjustment gear. In the figure, the lens gear 6
3 is a cross-sectional view of a meshing portion between 3 and the focus adjusting gear 64. FIG. 6A shows a state in which the lens gear 63 and the focus adjustment gear 64 are arranged on one plane and the teeth are arranged on one straight line. In this state, the rotating shafts of the respective gears are oriented in the same direction, so that the lens gear 63 and the focus adjusting gear 64 can normally mesh and rotate.

On the other hand, as described above, in the case where the focus of the lens is simultaneously adjusted by the gear while tilting the camera in the vertical direction to surely capture the subject, FIG.
Alternatively, as shown in FIG. 6C, the positional relationship between the lens gear 63 and the focus adjustment gear 64 is displaced. For example, in FIG. 6B, the lens gear 63 is the focus adjustment gear 64.
On the other hand, when rotating in the right direction, an angle is generated between the rotation axis direction 61 of the lens gear 63 and the rotation axis direction 60 of the focus adjustment gear 64. In this case, in the conventional configuration of the lens gear and the focus adjustment gear, the clearance between the gears is small, so that the gears interfere with each other, and when the gears are rotated in the above state, the gears twist and rotate. If the gear stops while it is in the middle, or if the tilt angle is small, the gear can be rotated, but the gear is significantly worn.

The present invention eliminates the above-mentioned problems and enables smooth rotation of the gear when the camera is tilted in the vertical direction and the focus of the lens is adjusted by the gear at the same time in order to reliably capture the subject. The purpose is to reduce wear of the gears. Another object is to ensure the meshing of the gears, prevent the gears from coming off, and improve the strength of the gears.

[0008]

In order to overcome the above-mentioned problems, the present invention provides a focus adjusting device comprising a lens gear for moving a lens and a focus adjusting gear for driving the lens gear. The clearance between the lens gear and the focus adjustment gear is increased. Then, as means for increasing the clearance, one or both of the lens gear and the focus adjusting gear are made thin. As another means for increasing the clearance, one or both gears of the lens gear and the focus adjustment gear are thinned. Further, as another means for increasing the clearance, the radius of curvature of the corner portion of one or both of the lens gear and the focus adjusting gear is increased. Further, as another means for increasing the clearance, the axial distance between the lens gear and the focus adjusting gear is increased. Further, the clearance can be increased by enlarging the module of the tooth portion of one or both of the lens gear and the focus adjusting gear.

[0009]

According to the present invention, in a focus adjusting device comprising a lens gear for moving a lens and a focus adjusting gear for driving the lens gear, a large clearance is provided between the lens gear and the focus adjusting gear. Therefore, in a videophone, etc., when the focus of the lens is adjusted with the gear while tilting the camera in the vertical direction in order to reliably capture the subject, it enables smooth rotation of the gear and wear of the gear. Can be reduced. Further, it is possible to ensure the meshing of the gears, prevent the gears from coming off, and improve the strength of the gears.

[0010]

Embodiments of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a front view of the focus adjusting device of the present invention. In the figure, an example in which the focus adjusting device of the present invention is applied to a camera device of a videophone is shown.
The videophone includes a display unit 1 and a pillar 20 that holds the display unit 1. The display unit 1 is configured by installing a display surface 3 on a display unit case 2. The display surface 3 is composed of, for example, a liquid crystal display device, but is not limited to the liquid crystal display device and may be another display device. Further, the pillar 20 has a pillar case 21, and the camera device 40 and the focus adjusting device of the present invention are installed in the pillar case 21 by a support frame 46. The support frame 4
6 is fixed to the pillar case 21 by screwing or the like.

The camera device 40 is supported on the support frame 46 by a support shaft 43 so that the lens 41 can be tilted in the vertical direction. A lens gear 42 is attached to the lens 41, and the lens gear 42 is rotated by a focus adjustment gear 44 and a focus adjustment dial 45 to perform focus adjustment. The focus adjustment gear 44
The focus adjustment dial 45 is supported by the shaft 47.

FIG. 2 is a front view of the focus adjusting device of the present invention, and FIG. 3 is a side view of the focus adjusting device of the present invention.
The tilt adjustment of the camera device 40 will be described with reference to FIG. The camera device 40 is pivotally supported by a support shaft 43, and an adjusting knob 4 provided at the rear of the camera device 40.
Tilt adjustment is performed by moving 8 up and down. Therefore, when the subject is above the camera device, the adjustment knob 48 is moved downward to tilt the lens 41 of the camera device upward, and when the subject is below the camera device, the adjustment is performed. The knob 48 is moved upward to tilt the lens 41 of the camera device downward.

Next, the structure of the gear of the focus adjusting device of the present invention will be described. First, a first embodiment of the focus adjusting device of the present invention will be described. FIG. 7 shows a sectional view of a meshing portion of a gear according to the first embodiment of the focus adjusting device of the present invention. FIG. 7A shows the first embodiment of the present invention.
The lens gear 70 and the focus adjusting gear 44 of the above embodiment are aligned on one plane and the teeth of each are aligned on a straight line. In this state, the rotation shafts of the respective gears are oriented in the same direction, so that the lens gear 70 and the focus adjustment gear 44 are normally meshed and rotated.

In the first embodiment of the focus adjusting apparatus of the present invention, the shape of the lens gear 70 is changed to the conventional lens gear 6
Compared with No. 3, the tooth thickness is made thinner. If the tooth thickness of the conventional lens gear 63 shown in FIG. 6 is a ₀ , the tooth thickness a ₁ of the lens gear 70 of the first embodiment of the present invention is formed thinner than the tooth thickness a ₀ . The operation using the lens gear 70 of the first embodiment of the present invention will be described below. While tilting the camera device 40 vertically, the lens 4
When the focus adjustment of No. 1 is performed, the positional relationship between the lens gear 70 and the focus adjustment gear 44 is as shown in FIG. 7B or 7C. For example, in FIG. 7B, when the lens gear 70 rotates to the right with respect to the focus adjustment gear 44, an angle is formed between the rotation axis direction 61 of the lens gear 70 and the rotation axis direction 60 of the focus adjustment gear 44. Occurs. In this case, in the configuration of the conventional lens gear 63 and the focus adjusting gear 64, the gears interfere with each other because the clearance between the gears is small. However, in the lens gear 70 of the first embodiment of the present invention, the tooth thickness is Since the gear is thin, interference between gears does not occur.

Therefore, even if the lens gear 70 and the focus adjusting gear 44 rotate in a relatively inclined positional relationship, the gears are not twisted, and the rotation is stopped midway or the gears are worn. Does not occur.
Even in the positional relationship between the lens gear 70 and the focus adjustment gear 44 as shown in FIG. 7C, the same as in the first embodiment of the present invention as described in FIG. 7B. Since the tooth thickness of the lens gear 70 is thin, there is no interference between the gears.

Next, a second embodiment of the focus adjusting device of the present invention will be described. FIG. 8 shows a sectional view of a meshing portion of a gear according to a second embodiment of the focus adjusting device of the present invention. FIG. 8A shows a state in which the lens gear 71 and the focus adjusting gear 44 of the second embodiment of the present invention are arranged on one plane and their teeth are arranged on one straight line. In this state, the rotating shafts of the respective gears are oriented in the same direction, so that the lens gear 71 and the focus adjusting gear 44 are normally meshed and rotated.

In the second embodiment of the focus adjusting device of the present invention, the shape of the lens gear 71 is changed to the conventional lens gear 6
The tooth width is smaller than that of No. 3. If the tooth width of the conventional lens gear 63 shown in FIG. 6 is b ₀ , the tooth width b ₂ of the lens gear 70 of the second embodiment of the present invention is formed thinner than the tooth width b ₀ . The operation using the lens gear 71 of the second embodiment of the present invention will be described below. While tilting the camera device 40 vertically, the lens 4
When the focus adjustment 1 is performed, the positional relationship between the lens gear 71 and the focus adjustment gear 44 is as shown in FIG. 8B or 8C. For example, in FIG. 8B, when the lens gear 71 rotates rightward with respect to the focus adjustment gear 44, an angle is formed between the rotation axis direction 61 of the lens gear 71 and the rotation axis direction 60 of the focus adjustment gear 44. Occurs. In this case, in the configuration of the conventional lens gear 63 and the focus adjustment gear 64, the clearances between the gears are small, so that the gears interfere with each other, but in the lens gear 71 of the second embodiment of the present invention, the tooth width is Since the gear is thin, interference between gears does not occur.

Therefore, even if the lens gear 71 and the focus adjusting gear 44 rotate in a relative inclined positional relationship, the gears are not twisted, and the rotation is stopped midway or the gears are worn. Does not occur.
Even in the positional relationship between the lens gear 71 and the focus adjusting gear 44 as shown in FIG. 8 (c), the second embodiment of the present invention can be used in the same manner as described with reference to FIG. 8 (b). Since the tooth thickness of the lens gear 71 is thin, there is no interference between the gears.

Next, a third embodiment of the focus adjusting device of the present invention will be described. FIG. 9 shows a sectional view of a meshing portion of a gear according to a third embodiment of the focus adjusting device of the present invention. FIG. 9A shows a state in which the lens gear 72 and the focus adjusting gear 44 of the third embodiment of the present invention are aligned on one plane and the teeth of each are aligned. In this state, the rotating shafts of the respective gears are oriented in the same direction, so that the lens gear 72 and the focus adjusting gear 44 are normally meshed and rotated.

In the third embodiment of the focus adjusting device of the present invention, the shape of the corner portion 73 of the tooth portion of the lens gear 71 is rounded and formed by a curve having a relatively large radius of curvature. The corner portion of the tooth portion of the conventional lens gear 63 is formed at a right angle or a small radius of curvature. Therefore, the lens gear 63 and the focus adjustment gear 64
In the state in which the teeth are relatively inclined, the corners of one tooth contact the surface of the other tooth in an oblique direction, which hinders the rotation of the gear. On the other hand, the third aspect of the present invention
Of the tooth portion of the lens gear 71 in the embodiment of FIG.
Is rounded and formed by a curve having a relatively large radius of curvature, the lens gear 72 and the focus adjustment gear 44 are
Even in a relatively inclined state, a certain distance can be provided between the corner portion of one tooth portion and the surface of the other tooth portion, and rotation of the gear is not hindered. The operation using the lens gear 72 of the third embodiment of the present invention will be described below. When adjusting the focus of the lens 41 at the same time while tilting the camera device 40 in the vertical direction, the lens gear 7 as shown in FIG. 9B or FIG. 9C is used.
2 and the focus adjustment gear 44 are in a positional relationship. For example, in FIG. 9B, when the lens gear 72 rotates to the right with respect to the focus adjustment gear 44, an angle is formed between the rotation axis direction 61 of the lens gear 72 and the rotation axis direction 60 of the focus adjustment gear 44. Occurs. In this case, in the configuration of the conventional lens gear 63 and the focus adjustment gear 64, the clearance between the gears is small, so that the gears interfere with each other, but in the lens gear 72 of the third embodiment of the present invention, the angle Since the shape of the portion is rounded and formed by a curve having a relatively large radius of curvature, interference between gears does not occur.

Therefore, even if the lens gear 72 and the focus adjusting gear 44 rotate in a relative inclined positional relationship, the gears are not twisted, and the rotation is stopped midway or the gears are worn. Does not occur.
Even in the positional relationship between the lens gear 72 and the focus adjusting gear 44 as shown in FIG. 9C, the third embodiment of the present invention is used as described in FIG. 9B. The lens gear 72 does not cause interference between the gears.

Next, a fourth embodiment of the focus adjusting device of the present invention will be described. FIG. 10 shows a front sectional view of a gear meshing portion of a fourth embodiment of the focus adjusting apparatus of the present invention. In the drawing, the lens gear 73 and the focus adjusting gear 44 of the fourth embodiment of the present invention are arranged in a plane and their teeth are arranged in a straight line.

In the fourth embodiment of the focus adjusting apparatus of the present invention, the axial distance 76 between the lens gear 73 and the focus adjusting gear 44 is set larger than that of the conventional one. When the axial distance between the conventional lens gear 63 and the focus adjusting gear 64 is set so that the pitch circles of both gears are in contact with each other as in the conventional case, both of the lens gear 63 and the focus adjusting gear 64 are inclined relative to each other. The gears will be twisted, and the rotation of the gears will be hindered. On the other hand, when the axial distance 76 between the lens gear 73 and the focus adjusting gear 44 in the fourth embodiment of the present invention is set larger than that of the conventional one, the axial distance 76 has a margin, so that the lens gear Even when the 72 and the focus adjusting gear 44 are relatively inclined, a certain distance can be provided between the surface of one tooth and the surface of the other tooth, and both gears are not twisted. It does not hinder the rotation of the gears.

Therefore, even if the lens gear 72 and the focus adjusting gear 44 rotate in a relative inclined positional relationship, the gears are not twisted, and the rotation is stopped midway or the gears are worn. Does not occur.
A fifth embodiment of the present invention will be described with reference to FIG. In the fifth embodiment of the focus adjusting device of the present invention, the module 75 of the lens gear 73 is made larger than the conventional one. The conventional lens gear 63 and the focus adjusting gear 64 have a small tooth module, and the positional relationship of the tooth portions is set assuming that the lens gear 63 and the focus adjusting gear 64 are aligned on one plane. Therefore, when the lens gear 63 and the focus adjusting gear 64 are relatively inclined, both gears are twisted, which hinders the rotation of the gears. On the other hand, in the case where the lens gear 73 and the module 75 of the tooth portion of the focus adjusting gear 44 in the fifth embodiment of the present invention are large,
The lens gear 73 is provided in advance with a margin in the positional relationship between the teeth.
Even when the focus adjusting gear 44 is tilted, the axial distance can be set so that the teeth are not twisted. Also,
When the lens gear 73 and the focus adjusting gear 44 are aligned on one plane, the module 75 is large, so that the gears are surely meshed with each other and the gears are not disengaged. Further, the strength of the gear itself can be improved.

Therefore, even if the lens gear 72 and the focus adjusting gear 44 are rotated in a relatively inclined positional relationship, the gears are not twisted, and the rotation is stopped midway or the gears are worn. Does not occur.
In addition, in the said 1st-5th Example, although the lens gearwheel was demonstrated, it can perform similarly about a focus adjustment gearwheel, and also not only one gearwheel but both a lens gearwheel and a focus adjustment gearwheel. You can also

The present invention is not limited to the above-mentioned embodiments, and various modifications can be made based on the spirit of the present invention, and they are not excluded from the scope of the present invention.

[0027]

As described above, according to the present invention,
In a focus adjustment device including a lens gear for moving a lens and a focus adjustment gear for driving the lens gear, a large clearance can be provided between the lens gear and the focus adjustment gear, and thus a videophone For example, when adjusting the focus of the lens with gears while tilting the camera in the up and down direction to reliably capture the subject, even if the lens gear and the focus adjustment gear rotate in an inclined positional relationship, It is not twisted, the rotation is stopped in the middle, the gear can be smoothly rotated, and the wear of the gear can be reduced. Further, it is possible to ensure the meshing of the gears, prevent the gears from coming off, and improve the strength of the gears.

[Brief description of drawings]

FIG. 1 is a front view of a focus adjusting device of the present invention.

FIG. 2 is a front view of the focus adjusting device of the present invention.

FIG. 3 is a side view of the focus adjusting device of the present invention.

FIG. 4 is a front view of a videophone.

FIG. 5 is a side view of a videophone.

FIG. 6 is a positional relationship diagram between a conventional lens gear and a focus adjustment gear.

FIG. 7 is a cross-sectional view of a meshing portion of a gear according to the first embodiment of the focus adjusting device of the present invention.

FIG. 8 is a sectional view of a meshing portion of a gear according to a second embodiment of the focus adjusting device of the present invention.

FIG. 9 is a sectional view of a meshing portion of a gear according to a third embodiment of the focus adjusting device of the present invention.

FIG. 10 is a front sectional view of a meshing portion of a gear according to fourth and fifth embodiments of the focus adjusting device of the present invention.

[Explanation of symbols]

 40 camera device 41 lens 42, 63, 70, 71, 72, 73 lens gear 43 support shaft 44, 64 focus adjustment gear 45 focus adjustment dial 46 support frame 47 shaft 48 adjustment knob 75 module 76 axial distance

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification number Reference number within the agency FI Technical indication location G02B 7/09 (72) Inventor Takeshi Furuya 10 Takane, Fujii-cho, Anjo City, Aichi Prefecture AW Co., Ltd.・ In the new hard (72) Inventor Geshi Kanto 10 Takane, Fujii-cho, Anjo City, Aichi Prefecture AW New Hard Co., Ltd.

Claims (6)

[Claims] 1. A camera comprising: (a) a lens gear for moving a lens; and (b) a focus adjusting gear for driving the lens gear, and (c) a camera tilted to reliably capture an object. However, when the focus adjustment of the lens is performed by the gear at the same time, the lens gear and the focus adjustment gear rotate smoothly. 2. The focus adjusting device according to claim 1, wherein the smooth rotation is increased by reducing a tooth thickness of one or both of the lens gear and the focus adjusting gear. 3. The focus adjusting device according to claim 1, wherein the smooth rotation is increased by reducing a tooth width of one or both of the lens gear and the focus adjusting gear. 4. The focus adjusting device according to claim 1, wherein the smooth rotation is increased by increasing a radius of curvature of a corner portion of one or both of the lens gear and the focus adjusting gear. 5. The focus adjusting device according to claim 1, wherein the smooth rotation is increased by increasing an axial distance between the lens gear and the focus adjusting gear. 6. The focus adjusting device according to claim 1, wherein the smooth rotation is increased by enlarging a module of a tooth portion of one or both of the lens gear and the focus adjusting gear.